How to make a home quantum computer
• Bulgarian Academy of Science: Institute for the Study of Societies and Knowledge: Dept. of Logical Systems and Models vasildinev@gmail.com
16:45 - 17:15, June 27th , University of Istanbul, Room “C” 5th Congress in Universal Logic, University of Istanbul, Turkey, 25-30 June 2015
eality as if is doubled in relation to language e will model this doubling by two Turing machines (i.e. by usual computers) in a kind of “dialog�: the one for reality, the other for its image in language he two ones have to reach the state of equilibrium to each other t last, one can demonstrate that the pair of them is equivalent to a quantum computer
he one counterpart of reality is within the language as the representation of the other counterpart of reality being outside the language and existing by itself hey are represented as two Turing machines ny state of the pair of them is a value of information hen they turn out to be in one and the same state at last: that information is minimal and equal to entropy urthermore, this is the state of equilibrium for the difference between the states of the two computers converges to zero
oth representation and metaphor are called to support the correspondence between the two twins as an “image and simile” epresentation being an “image” means that the computers are absolutely independent of each other, or “orthogonal to each other”. etaphor being a “simile” means that is not the case: the computers are partly dependent on each other and thus non-orthogonal to each other
he mechanism of that correspondence and its formal conditions are investigated as a formal and ontological model of language ne can use the metaphor that reality and its image in language “speak to each other” in a dialog in order to “agree with each other” eality is just the state of “agreement”, which is modeled by the state of equilibrium of the two computers
anguage is modeled by reducing to any infinite countable set (A) of its units of meaning, either words or propositions, or whatever others hat language is furthermore modeled in the computers in a few steps: he units of meaning are reduced to the minimal possible ones, bits he infinite countable set is modeled by the independence of the same pair of each other: So infinity is represented by its “gap� to finiteness just a second dimension ...
hat infinite countable model of language includes all possible meanings, which can be ever expressed rather than the existing till now, which would always a finite set his corresponds to the independence, the “gap” between the computers, which can be overcome by each of them only in an infinite set of working steps determining the value either “0” or “1” for each cell of an infinite “tape” owever, the tandem of both, i.e. in dialog can overcome that gap in finite set of steps
he external twin of reality is introduced by another set (đ??ľ) such that its intersection with the above set of language to be empty he union of them (đ??ś = đ??´ âˆŞ đ??ľ) exists always so that a one-to-one mapping (đ?‘“: đ??ś ↔ đ??´) should exist under the condition of the axiom of choice he mapping (đ?‘“) produces an image (đ??ľ (đ?‘“)) of the latter set (đ??ľ) within the former set (đ??´). hat image (đ??ľ (đ?‘“)) serves as the other twin of reality to model the reality within the language as the exact representation of that reality out of language (modeled as the set đ??ľ)
One designates the image of B into A through f by “B(f)� so that B(f) is a true subset of A
Defining : đ?‘¨âˆŞđ?‘Š
(đ?&#x;?:đ?&#x;?)
n the model, the necessity and sufficient condition of that representation between reality both within and out of the language is just the axiom of choice ndeed one needs only two well-ordered infinite series equivalent to the axiom of choice by the meditation of the so-called well-ordering theorem (or “principle�) he pair of the two Turing machines though each of them being finite can represent effectively the two infinite series by the relation of independence to each other
f the axiom of choice does not hold, the relation between the sets B (f) and B cannot be defined unambiguously hen the vehicle between the two twins can be only metaphor his corresponds to the case where the Turing machines depend partly on each other or share some infinite segment of their “tapes�: ny operation of any of both machines within that segment is necessarily valid for the other one, and this is not true out of that segment
he metaphor can be anyway defined to a set of one-to-one representations of the only similar external twin into a set of internal “twins”
hen each of them is a different of the external “twin” so that a different metaphor is generated in each case his means an infinite set of Turing machines, each of which “interprets” the external “twins” differently
he representation seems to be vague, defocussed, after which the image is bifurcate and necessarily described by some metaphors within the language nly the infinite set of Turing machines, each of which is a different interpretation of the external “twin”, can be exhaustedly represented as the two initial Turing machines being independent of each other hat is the case because “two infinities” can be equated to a single one
onsequently reality is in an indefinite, bifurcate position to language according to the choice formalized in the axiom of choice: s ontology, it is within language s reality properly being represented in language, it is out of language hat extraordinary property of the relation of reality and language can be modeled as involving nfinity, or wo independent “finitenesses� (for the two Turing machines)
f choice is granted, the language generates an exact image of reality in itself, and reality is outside of it f not, only some simile can exist expressible within it only by metaphors, and reality and language merge into each other into ontology he two above cases correspond in the Turingmachines model to their independence and partial dependence according to zero or nonzero correlation between the alternatives of choice
f the axiom of choice does not hold, language and reality converge, e.g. as ‘ontology’ his corresponds to some common infinite segment between the “tapes” of the two Turing machines n that segment, both machines as if merge into a single one for the operation of each of the predetermined the operation of the other one hen the gap of independence modeling that gap between finiteness and infinity does not exist
ntology utilizing metaphors can describe the being as an inseparable unity of language and reality within language his abandons both representation and conception of truth as the adequacy of language to reality owever, the state of equilibrium of the two Turing machines can be interpreted both in terms of representation (reality) and metaphor (ontology)
hose metaphors in ontology should coincide with reality (and with physical reality in particular) just in virtue of the ontological viewpoint hus the state of equilibrium between the two Turing machines can be interpreted as both: ontinuous transition between them ynchronization between them
epresentation can be defined as a one-to-one mapping between two infinite sets: he one for reality he other for its image han language can be formally defined by the representation his means that pair of the two independent Turing machines can defined a formal model of language at all
nd vice versa: Language is the natural interpretation of that model f there are available any infinite set whether “numbers” or “words”, one can utilize it to build a language owever this can realize even practically sidestepping for infinity ny two finite sets merely postulated as independent are sufficient hose two finite sets are interpreted in philosophy as the “things” and “words”
he advantage of that approach is to link the representation of the human being to the representation by a machine (e.g. a computer) urthermore, the pair of Turing machines can be interpreted as a single quantum computer (quantum Turing machine, in which all bits are replaced by qubits) hen, the concepts of language, reality, and ontology can be thoroughly defined it terms of that quantum computer
athematics turns out to be a kind of language literally t can be grounded formally on language as a theory of language at all he concept of information as the quantity of choices is what links language and mathematics fundamentally f information is granted both mathematics and language can be inferred rigorously from its properties if they are relevantly axiomatized
ne can construct a model of two independent Turing machines allowing of a series of relevant interpretations: anguage uantum computer epresentation and metaphor eality and ontology n turn that model is based on the concepts of choice and information
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