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Re: Information, Architecture, & a Quantum Interrnet ...

From: Guntur Wiseno Putra <gsenopu@gmail.com>
Date: Sat, 10 Aug 2019 07:33:31 +0700
Message-ID: <CAKi_AEu2i1bnm4so+vm-NKCj0S-oNP9oSNtL3x5xDngf8Tg5TQ@mail.gmail.com>
To: "public-informationarchitecture@w3.org" <public-informationarchitecture@w3.org>
Dear public-informationarchitecture@w3.org,

This is a work attempted in considering architecturally quantum

arXiv:cs/0103009 <https://arxiv.org/abs/cs/0103009>  [pdf
<https://arxiv.org/pdf/cs/0103009>, ps <https://arxiv.org/ps/cs/0103009>, ot
her <https://arxiv.org/format/cs/0103009>]
cs.PL quant-ph
doi10.1140/epjd/e2003-00242-2  <https://doi.org/10.1140/epjd/e2003-00242-2>

Toward an architecture for quantumprogramming

Authors: S. Bettelli
<https://arxiv.org/search/?searchtype=author&query=Bettelli%2C+S>, L.
Serafini <https://arxiv.org/search/?searchtype=author&query=Serafini%2C+L>, T.
Calarco <https://arxiv.org/search/?searchtype=author&query=Calarco%2C+T>

Abstract: It is becoming increasingly clear that, if a useful device for
quantum computation will ever be built, it will be embodied by a classical
computingmachine with control over a truly quantum subsystem, this
apparatus performing a mixture of classical and quantum computation. This
paper investigates a possible approach to the problem ofprogramming such
machines: a template high level quantum language is presented which
complements a generic general purpose classical language with a set of
quantum primitives.

The underlying scheme involves a run-time environment which calculates the
byte-code for the quantum operations and pipes it to a quantum device
controller or to a simulator. Thislanguage can compactly express existing
quantumalgorithms and reduce them to sequences of elementary operations; it
also easily lends itself to automatic, hardware independent, circuit
simplification. A publicly available preliminary implementation of the
proposed ideas has been realized using the C++ language. △ Less

Submitted 27 March, 2003; v1 submitted 8 March, 2001;originally announced March

Comments: 23 pages, 5 figures, A4paper. Final version accepted by EJPD
("swap" replaced by "invert" for Qops). Preliminary implementation
available at: http://sra.itc.it/people/serafini/quantum-computing/qlang.html

Report number: IRST technical report 0103-010 ACM Class:D.3.1

Journal ref: Eur. Phys. J. D, Vol. 25, No. 2, pp. 181-200 (2003)


Guntur Wiseno Putra

Pada Jumat, 09 Agustus 2019, Guntur Wiseno Putra <gsenopu@gmail.com>

> Dear public-informationarchitecture@w3.org
> & public-xformsusers@w3.org,
> This is a note given in the preface of "Programs as the Language of
> Science" by Garry Pantelis regarding with "quantum computing" --a work I
> ever sent to public-xformsusers@w3.org as one might be inspiring to the
> text suggested by Steven Pemberton which was John M. Boyer's "Multitasking
> Algorithms in XForms..." (The links to the texts are provided there in the
> thread of postings: https://lists.w3.org/Archives/
> Public/public-xformsusers/2019Aug/0001.html )
> Special Note: During the time that this book was written the topic
> of quantum computing had gained considerable popularity. Quantum
> computers are still at the development stage and whether they become
> a viable alternative to deterministic machines is yet to be confirmed.
> Nevertheless, many of the ideas presented in this book that focus on
> computability on deterministic machines will also be relevant to quantum
> computers.
> Regard,
> Guntur Wiseno Putra
> Pada Jumat, 09 Agustus 2019, Guntur Wiseno Putra <gsenopu@gmail.com>
> menulis:
>> Dear public-informationarchitecture@w3.org
>> & public-xformsusers@w3.org,
>> It may make an interest as part of readings on "information architecture"
>> and "XFORMS" in attempting such an understanding on "quantum computing" and
>> related ones...:
>> arXiv:1106.2684 <https://arxiv.org/abs/1106.2684>  [pdf
>> <https://arxiv.org/pdf/1106.2684>]
>> cs.SE cs.ET cs.PL quant-ph
>> QIS-XML: An Extensible MarkupLanguage for Quantum Information Science
>> Authors: Pascal Heus
>> <https://arxiv.org/search/?searchtype=author&query=Heus%2C+P>, Richard
>> Gomez <https://arxiv.org/search/?searchtype=author&query=Gomez%2C+R>
>> Abstract: This Master thesis examines issues of interoperability and
>> integration between the Classic Information Science (CIS) and Quantum
>> Information Science (QIS). It provides a short introduction to the
>> Extensible Markup Language (XML) and proceeds to describe the
>> development steps that have lead to a prototype XML specification for
>> quantum computing (QIS-XML). QIS-XML is a proposed framework, based on
>> the widely used standard (XML) to describe, visualize, exchange and process
>> quantum gates and quantum circuits. It also provides a potential
>> approach to a genericprogramming language for quantumcomputers through
>> the concept of XML driven compilers. Examples are provided for the
>> description of commonly used quantum gates and circuits, accompanied with
>> tools to visualize them in standard web browsers. An algorithmic example
>> is also presented, performing a simple addition operation with quantum
>> circuits and running the programon a quantum computer simulator. Overall,
>> this initial effort demonstrates how XML technologies could be at the core
>> of the architecture for describing andprogramming quantum computers. By
>> leveraging a widely accepted standard, QIS-XML also builds a bridge between
>> classic and quantum IT, which could foster the acceptance of QIS by the ICT
>> community and facilitate the understanding of quantum technology by IT
>> experts. This would support the consolidation of Classic Information
>> Science and Quantum Information Science into a Complete Information
>> Science, a challenge that could be referred to as the "Information Science
>> Grand Unification Challenge". △ Less
>> Submitted 14 June, 2011; originally announcedJune 2011.
>> Comments: 83 pages, 58 figures
>> (It would supposedly be good to include this posting in the threads on
>> "quantum computing" as it is now...)
>> Regard,
>> Guntur Wiseno Putra
>> Pada Selasa, 23 Juli 2019, Guntur Wiseno Putra <gsenopu@gmail.com>
>> menulis:
>>> Dear public-informationarchitecture,
>>> This paper worked on "quantum information" as a scientific discipline in
>>> its approach to "complex quantum system":
>>> arXiv:quant-ph/0208078 <https://arxiv.org/abs/quant-ph/0208078>  [pdf
>>> <https://arxiv.org/pdf/quant-ph/0208078>, ps
>>> <https://arxiv.org/ps/quant-ph/0208078>,other
>>> <https://arxiv.org/format/quant-ph/0208078>]
>>> quant-ph
>>> Quantum information science as an approach to complex quantum systems
>>> Authors: Michael A. Nielsen
>>> <https://arxiv.org/search/?searchtype=author&query=Nielsen%2C+M+A>
>>> Abstract: What makes quantum information science a science? These notes
>>> explore the idea that quantum information science may offer a powerful
>>> approach to the study of complex quantum systems. We discuss how to
>>> quantify complexity in quantum systems, and argue that there are two
>>> qualitatively different types of complex quantum system. We also
>>> explore ways of understanding complex quantum dynamics by quantifying the
>>> strength of a quantum dynamical operation as a physical resource.
>>> Regard,
>>> Guntur Wiseno Putra
>>> Pada Sabtu, 20 Juli 2019, Guntur Wiseno Putra <gsenopu@gmail.com>
>>> menulis:
>>>> Dear public-informationarchitecture,
>>>> There is the term "web" applied to Quantum Computing though there is
>>>> supposedly no direct reference to the " (World Wide) Web". Or, did I miss
>>>> things...?
>>>> arXiv:0810.2542 <https://arxiv.org/abs/0810.2542>  [pdf
>>>> <https://arxiv.org/pdf/0810.2542>, other
>>>> <https://arxiv.org/format/0810.2542>]
>>>> quant-ph
>>>> doi10.1103/PhysRevA.82.040303
>>>> <https://doi.org/10.1103/PhysRevA.82.040303>
>>>> Quantum computational webs
>>>> Authors: D. Gross
>>>> <https://arxiv.org/search/?searchtype=author&query=Gross%2C+D>, J.
>>>> Eisert <https://arxiv.org/search/?searchtype=author&query=Eisert%2C+J>
>>>> Abstract: We introduce the notion of quantum computational webs: These
>>>> are quantum states universal for measurement-based computation which
>>>> can be built up from a collection of simple primitives. The primitive
>>>> elements - reminiscent of building blocks in a construction kit - are (i)
>>>> states on a one-dimensional chain of systems("computational quantum
>>>> wires") with the power to process one logical qubit and (ii) suitable
>>>> couplings which connect the wires to a computationally universal "web"...
>>>> Regard,
>>>> Guntur Wiseno Putra
>>>> Pada Selasa, 02 Juli 2019, Guntur Wiseno Putra <gsenopu@gmail.com>
>>>> menulis:
>>>>> Dear public-infirmationarchitecture,
>>>>> I finded the text out at Arxiv-Cornell University: it said that it
>>>>> aimed to summarise the whole subject of quantum information theory
>>>>> Quantum Computing
>>>>> Authors: Andrew Steane
>>>>> <https://arxiv.org/search/?searchtype=author&query=Steane%2C+A>
>>>>> arXiv:quant-ph/9708022 <https://arxiv.org/abs/quant-ph/9708022>  [pdf
>>>>> <https://arxiv.org/pdf/quant-ph/9708022>, ps
>>>>> <https://arxiv.org/ps/quant-ph/9708022>, other
>>>>> <https://arxiv.org/format/quant-ph/9708022>]
>>>>> quant-ph
>>>>> doi10.1088/0034-4885/61/2/002
>>>>> <https://doi.org/10.1088/0034-4885/61/2/002>
>>>>> Regard,
>>>>> Guntur Wiseno Putra
>>>>> Pada Minggu, 02 Juni 2019, Guntur Wiseno Putra <gsenopu@gmail.com>
>>>>> menulis:
>>>>>> Dear public-information@w3.org,
>>>>>> May it be an interesting reading on "quantum" as it is "A Blueprint
>>>>>> of Building Quantum Computer"
>>>>>> (Van Meter, R. & C. Horsman, CACM October 2013 Vol. 56 No. 10)
>>>>>> https://m-cacm.acm.org/magazines/2013/10/168172-a-blueprint-
>>>>>> for-building-a-quantum-computer/fulltext
>>>>>> It was meant to "review the progress that has been made in
>>>>>> developing architectures for full-scale quantum computers. (It)
>>>>>> highlight(s) the process of integrating the basic elements that have
>>>>>> already been developed, and introduce the challenges that remain in
>>>>>> delivering on the promise of quantum computing".
>>>>>> Regard,
>>>>>> Guntur Wiseno Putra
>>>>>> Pada Kamis, 21 Maret 2019, Guntur Wiseno Putra <gsenopu@gmail.com>
>>>>>> menulis:
>>>>>>> Dear All,
>>>>>>> What is the Internet Web today?
>>>>>>> Somewhere http://www.ietf.org on March 2019:
>>>>>>> There is an Active Internet-Draft "Architectural Principles for a
>>>>>>> Quantum Internet": of which there is a discussion on quantum information
>>>>>>> (qubit & multiple qubit) for quantum networking for model of computation...
>>>>>>> https://www.ietf.org/id/draft-irtf-qirg-principles-00.txt
>>>>>>> Regard,
>>>>>>> Guntur Wiseno Putra
Received on Saturday, 10 August 2019 00:33:56 UTC

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