- From: Guntur Wiseno Putra <gsenopu@gmail.com>
- Date: Fri, 9 Aug 2019 14:16:14 +0700
- To: "public-informationarchitecture@w3.org" <public-informationarchitecture@w3.org>, public-xformsusers@w3.org
- Message-ID: <CAKi_AEs0E3VhEgxuT0vzRmv+P=dP7J_WCtuFutwB62M_v8AHWw@mail.gmail.com>
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 and
programming 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 Friday, 9 August 2019 07:16:39 UTC