Wikipedia - User contributions [en]

Breakthrough Prize in Fundamental Physics

2015-11-11T10:04:50Z

ChristophLZA: /* Criticism */ Completed misleading quote

{{Infobox award
|name= The Fundamental Physics Prize
|description= Transformative advances in fundamental physics
|presenter= Fundamental Physics Prize Foundation
|founder = [[Yuri Milner]]
|country= International
|year= 2012
|website= [http://www.fundamentalphysicsprize.org/ Official Website]
}}
'''The Fundamental Physics Prize ''' is awarded by the Fundamental Physics Prize Foundation, a not-for-profit organization dedicated to awarding [[physicist]]s involved in fundamental research which was founded in July 2012 by Russian physicist and internet entrepreneur [[Yuri Milner]].<ref name=FPP>{{cite web|title=Fundamental Physics Prize - About|url=http://www.fundamentalphysicsprize.org/about.html|publisher=Fundamental Physics Prize|accessdate=4 August 2012}}</ref>

{{As of|2012|07}}, this prize is the most lucrative academic prize in the world<ref>{{cite web|url=http://economictimes.indiatimes.com/news/politics/nation/indian-scientist-ashoke-sen-bags-top-physics-honour/articleshow/15322177.cms|title=Indian scientist Ashoke Sen bags top physics honour|work=timesofindia-economictimes}}</ref> and is more than twice as big as the amount given to the [[Nobel Prize]] awardees.<ref name=nyt>{{cite news|url=http://www.nytimes.com/2012/07/31/science/9-scientists-win-yuri-milners-fundamental-physics-prize.html?_r=1 |title=9 Scientists Receive a New Physics Prize |publisher=The New York Times |date=31 July 2012 |accessdate=2012-08-04}}</ref><ref>[http://english.ruvr.ru/2012_08_01/New-Russian-physics-prize-three-times-bigger-than-Nobel/ New Russian physics prize three times bigger than Nobel], The Voice of Russia</ref> This prize is also dubbed by the media as the 'XXI Century Nobel'.<ref name=autogenerated2>{{cite web|url=http://www.ft.com/cms/s/0/8ba327a8-7b7e-11e2-95b9-00144feabdc0.html#axzz2yacUqM3Z|title=Winners of life science prize revealed|work=Financial Times}}</ref>

==Nominations and awards money==
{{As of|2012|07}}, anyone can nominate a candidate through the FPP website.<ref name=FPP />
{{As of|2012|07}}, each award is worth $3 million. The monetary value exceeds that of the prestigious [[Nobel Prize]], which in 2012 stood at slightly more than $1.2 million.<ref name=nyt /><ref name=autogenerated2 /> Physics Frontiers Prize laureates (those on the shortlist Fundamental Physics Prize) who do not go on to be awarded the Fundamental Physics Prize will each receive (as of 2013) $300,000 and will automatically be re-nominated for the Fundamental Physics Prize each year for the next 5 years.<ref name=FPP />

==New Horizons in Physics Prize==
The New Horizons for Physics Prize, awarded to promising junior researchers, carries an award of $100,000.<ref>{{cite web|url=http://www.fundamentalphysicsprize.org/news/news3|title=Fundamental Physics Prize News|work=fundamentalphysicsprize.org}}</ref>

The winners of the 2013 prize are Niklas Beisert of [[ETH Zurich]], for the development of powerful exact methods to describe a quantum gauge theory and its associated string theory; Davide Gaiotto of the [[Perimeter Institute for Theoretical Physics]] in Ontario, for far-reaching new insights about duality, gauge theory, and geometry, and especially for his work linking theories in different dimensions in most unexpected ways; Zohar Komargodski of the [[Weizmann Institute of Science]] in [[Israel]] for his work on the dynamics of four-dimensional field theories and in particular his proof (with Schwimmer) of the “a-theorem” which has solved a long-standing problem, leading to deep new insights.<ref>{{cite web|url=http://www.haaretz.com/news/national/israeli-wins-prestigious-international-physics-prize.premium-1.484225|title=Israeli Wins Prestigious International Physics Prize|work=Haaretz.com}}</ref>

The winners of the 2014 prize are Freddy Cachazo of the [[Perimeter Institute for Theoretical Physics]], for uncovering numerous structures underlying scattering amplitudes in gauge theories and gravity; Shiraz Minwalla of the [[Tata Institute of Fundamental Research]], for his pioneering contributions to the study of string theory and quantum field theory; and in particular his work on the connection between the equations of fluid dynamics and Albert Einstein’s equations of general relativity; [[:de:Vyacheslav_Rychkov|Slava Rychkov]] of the [[Pierre-and-Marie-Curie University]], currently at [[CERN]], for developing new techniques in conformal field theory, reviving the [[conformal bootstrap]] program for constraining the spectrum of operators and the structure constants in 3D and 4D CFT’s.

The winners of the 2015 New Horizons in Physics Prizes are [[Sean Hartnoll]] of Stanford University, for applying holographic methods to obtain remarkable new insights into strongly interacting quantum matter; [[Philip C. Schuster]] and [[Natalia Toro]] of Perimeter Institute, for pioneering the “simplified models” framework for new physics searches at the Large Hadron Collider, as well as spearheading new experimental searches for dark sectors using high-intensity electron beams; [[Horacio Casini]] and [[Marina Huerta]] of CONICET and Instituto Balseiro, Universidad Nacional de Cuyo; [[Shinsei Ryu]] of University of Illinois at Urbana-Champaign, and [[Tadashi Takayanagi]] of Kyoto University for fundamental ideas about entropy in quantum field theory and quantum gravity.{{refneeded|date=August 2015}}

==FPP Laureates==
The following is a listing of the laureates, by year.

{| class="wikitable sortable"
|-
! Year of award
! Fundamental Physics Prize Laureates<ref name=FPP />
! Awarded for<ref name=FPP />
! Alma mater
! Institutional affiliation when prize awarded<ref name=FPP />
|-
|2012
|[[Nima Arkani-Hamed]]
|Original approaches to outstanding problems in [[particle physics]]
|[[University of Toronto]], [[University of California, Berkeley]]
|[[Institute for Advanced Study, Princeton|Institute for Advanced Study]], [[Princeton University|Princeton]]
|-
|2012
|[[Alan Guth]]
|Invention of [[inflationary cosmology]], and for contributions to the theory for the generation of [[Primordial fluctuations|cosmological density fluctuations]] arising from [[quantum fluctuations]]
|[[Massachusetts Institute of Technology]]
|[[Massachusetts Institute of Technology]], [[Cambridge, Massachusetts|Cambridge]]
|-
|2012
|[[Alexei Kitaev]]
|For robust quantum memories and fault-tolerant [[quantum computation]] using topological quantum phases with [[anyon]]s and unpaired [[Majorana fermion|Majorana modes]].
|[[Moscow Institute of Physics and Technology]], [[Landau Institute for Theoretical Physics]]
|[[California Institute of Technology]], [[Pasadena, CA]] Currently at KITP and UCSB, Santa Barbara
|-
|2012
|[[Maxim Kontsevich]]
|Numerous contributions including development of [[homological mirror symmetry]], and the study of [[wall-crossing]] phenomena.
|[[University of Bonn]] [[Moscow State University]]
|[[Institut des Hautes Études Scientifiques]], [[Bures-sur-Yvette]]
|-
|2012
|[[Andrei Linde]]<ref>https://www.youtube.com/watch?v=ndsb4PJSqKc{{dead link|date=August 2015}}</ref>
|For development of [[inflationary cosmology]], including the theory of new inflation, eternal [[chaotic inflation]] and the theory of inflationary [[multiverse]], and for contributing to the development of vacuum stabilization mechanisms in [[string theory]].
|[[Moscow State University]]
|[[Stanford University]], [[Stanford, California|Stanford]]
|-
|2012
|[[Juan Maldacena]]
|Contributions to [[Duality revolution|gauge/gravity duality]], relating gravitational physics in a spacetime and [[quantum field theory]] on the boundary of the spacetime
|[[Universidad Nacional de Cuyo]], [[Princeton University]]
|[[Institute for Advanced Study, Princeton|Institute for Advanced Study]], [[Princeton University|Princeton]]
|-
|2012
|[[Nathan Seiberg]]
|Contributions to our understanding of quantum field theory and [[string theory]].
|[[Weizmann Institute of Science]], [[Tel-Aviv University]]
|[[Institute for Advanced Study, Princeton|Institute for Advanced Study]], [[Princeton University|Princeton]]
|-
|2012
|[[Ashoke Sen]]
|Opening the path to the realization that all [[String theory|string theories]] are different limits of the same underlying theory.
|[[Presidency College, Kolkata]] [[University of Calcutta]] [[Indian Institute of Technology, Kanpur|IIT Kanpur]] [[Stony Brook University]]
|[[Harish-Chandra Research Institute]], [[Allahabad]]
|-
|2012
|[[Edward Witten]]
|For applications of topology to physics, non-perturbative duality symmetries, models of particle physics derived from string theory, [[Dark matter#Detection|dark matter detection]], and the [[Twistor theory|twistor-string approach]] to particle scattering amplitudes, as well as numerous applications of quantum field theory to mathematics.
|[[Brandeis University]] ([[Bachelor of Arts|B.A.]]) [[University of Wisconsin, Madison]] [[Princeton University]] ([[PhD]])
|[[Institute for Advanced Study, Princeton|Institute for Advanced Study]], [[Princeton University|Princeton]]
|-
|2012 (special)
|[[Stephen Hawking]]
|For his discovery of [[Hawking radiation]] from [[black hole]]s, and his deep contributions to [[quantum gravity]] and quantum aspects of the [[early universe]].<ref name=FPP-Dec2012>{{cite web|title=Fundamental Physics Prize - News|url=http://www.fundamentalphysicsprize.org/news/news3|publisher=Fundamental Physics Prize|accessdate=11 December 2012}}</ref>
|
|
|-
|2012 (special)
|[[Peter Jenni]], [[Fabiola Gianotti]] ([[ATLAS]]), [[Michel Della Negra]], [[Tejinder Singh Virdee]], [[Guido Tonelli]], [[Joe Incandela]] ([[Compact Muon Solenoid|CMS]]) and [[Lyn Evans]] ([[LHC]])
|For their leadership role in the scientific endeavour that led to the discovery of the new [[Higgs boson|Higgs-like particle]] by the [[ATLAS]] and [[Compact Muon Solenoid|CMS]] collaborations at [[CERN]]'s [[Large Hadron Collider]].<ref name=FPP-Dec2012 />
|
|
|-
|2013
|[[Alexander Markovich Polyakov|Alexander Polyakov]]
|For his many discoveries in field theory and string theory including the [[conformal bootstrap]], magnetic monopoles, instantons, confinement/de-confinement, the quantization of strings in non-critical dimensions, gauge/string duality and many others. His ideas have dominated the scene in these fields during the past decades.
|[[Moscow Institute of Physics and Technology]]
|[[Princeton University|Princeton University, Princeton]]
|-
|2014
|[[Michael Green (physicist)|Michael Green]] and [[John Henry Schwarz]]
|For opening new perspectives on quantum gravity and the unification of forces.
|[[Harvard University]], [[University of California, Berkeley]] and [[Cambridge University|Cambridge University, Cambridge, UK]]
|[[California Institute of Technology]] and [[Cambridge University|Cambridge University, Cambridge, UK]]
|-
|2015
|[[Saul Perlmutter]] and members of the Supernova Cosmology Project; [[Brian P. Schmidt]], [[ Adam Riess]] and members of the High-Z Supernova Team.
|For the most unexpected discovery that the expansion of the universe is accelerating, rather than slowing as had been long assumed.
|
|[[University of California, Berkeley]] and [[Lawrence Berkeley National Laboratory]]; [[ Australian National University]];[[Johns Hopkins University]] and [[ Space Telescope Science Institute]]
|-
|2016
|[[Yifang Wang]] and [[Kam-Biu Luk]] and the Daya Bay Team
|for the fundamental discovery and exploration of neutrino oscillations, revealing a new frontier beyond, and possibly far beyond, the standard model of particle physics.
|
|[[Chinese Academy of Sciences]], [[University of California, Berkeley]]
|-
|2016
|[[Atsuto Suzuki]] and the KamLAND Team
|for the fundamental discovery and exploration of neutrino oscillations, revealing a new frontier beyond, and possibly far beyond, the standard model of particle physics.
|
|[[Iwate Prefectural University]], [[Japan]]
|-
|2016
|[[Koichiro Nishikawa]] and the K2K / T2K Team
|for the fundamental discovery and exploration of neutrino oscillations, revealing a new frontier beyond, and possibly far beyond, the standard model of particle physics.
|
|[[High Energy Accelerator Research Organization]], [[Japan]]
|-
|2016
|[[Arthur B. McDonald]] and the Sudbury Neutrino Observatory Team
|for the fundamental discovery and exploration of neutrino oscillations, revealing a new frontier beyond, and possibly far beyond, the standard model of particle physics.
|
|[[Queen’s University]], [[Canada]]
|-
|2016
|[[Takaaki Kajita]] and [[Yoichiro Suzuki]] and the Super-Kamiokande Team
|for the fundamental discovery and exploration of neutrino oscillations, revealing a new frontier beyond, and possibly far beyond, the standard model of particle physics.
|
|[[Kavli Institute for the Physics and Mathematics of the Universe]], [[University of Tokyo]], [[Japan]]
|}

==Trophy==
The Fundamental Physics Prize trophy - a work of art created by Danish-Icelandic artist [[Olafur Eliasson]],<ref>https://www.youtube.com/watch?v=Ox024Yu2ViU{{dead link|date=August 2015}}</ref> is a silver sphere with a coiled vortex inside. The form is, in fact, a toroid, or doughnut shape, resulting from two sets of intertwining three-dimensional spirals. Found in nature, these spirals are seen in animal horns, nautilus shells, whirlpools, and even galaxies and black holes.<ref>[https://breakthroughprize.org/Trophy The Breakthrough Prize trophy].</ref>

==Ceremony==
The name of 2013 prize winner was unveiled at the culmination of a ceremony which took place on the evening of March 20, 2013 at the Geneva International Conference Centre.<ref>Press Release http://www.fundamentalphysicsprize.org/news/news4</ref> The ceremony was hosted by Hollywood actor and science enthusiast [[Morgan Freeman]].<ref>https://www.youtube.com/watch?v=52xSOEFTzrM{{dead link|date=August 2015}}</ref> The evening honored the 2013 laureates − 16 outstanding scientists including [[Stephen Hawking]]<ref>{{cite av media|url=https://www.youtube.com/watch?v=w0QY4cGY0pU|title=YouTube|work=youtube.com}}</ref> and [[CERN]] scientists who led the decades-long effort to discover the Higgs-like particle at the Large Hadron Collider.<ref>https://www.youtube.com/watch?v=0hQnoZtvsBQ{{dead link|date=August 2015}}</ref> [[Sarah Brightman]] and Russian pianist [[Denis Matsuev]] performed live for the guests of the ceremony.

==Criticism==
Some have expressed reservations about the award.<ref>{{Cite web|author=Zeeya Merali|date=12 June 2013|title=Science prizes: The new Nobels|url=http://www.nature.com/news/science-prizes-the-new-nobels-1.13168|publisher=[[Nature (journal)|nature.com]]|accessdate=22 June 2013}}</ref>

{{Quote| ''What's not to like? Quite a lot, according to a handful of scientists […] You cannot buy class, as the old saying goes, and these upstart entrepreneurs cannot buy their prizes the prestige of the Nobels. The new awards are an exercise in self-promotion for those behind them, say scientists. They could distort the meritocracy of peer-review-led research. They could cement the status quo of peer-reviewed research. They do not fund peer-reviewed research. They perpetuate the myth of the lone genius.(...) As much as some scientists may grumble about the new awards, the financial doping that they bring to research and the wisdom of the goals behind them, two things seem clear. First, most researchers would accept such a prize if they were offered one. Second, it is surely a good thing that the money and attention come to science rather than go elsewhere. It is fair to criticize and question the mechanism — that is the culture of research, after all — but it is the prize-givers’ money to do with as they please. It is wise to accept such gifts with gratitude and grace.''<ref>{{Cite web|author=Editorial|date=12 June 2013|title=Young upstarts|url=http://www.nature.com/news/young-upstarts-1.13172|publisher=[[Nature (journal)|nature.com]]|accessdate=22 June 2013}}</ref> }}

==See also==
* [[Breakthrough Prize in Life Sciences]]
* [[Breakthrough Prize in Mathematics]]<ref>[http://www.nytimes.com/2013/12/14/science/3-million-prizes-to-go-to-mathematicians.html $3 Million Prizes Will Go to Mathematicians, Too], The New York Times</ref>

==References==
{{Reflist|2}}

==External links==
* {{Official Website|http://www.fundamentalphysicsprize.org/}}

[[Category:Physics awards]]
[[Category:International awards]]
[[Category:Russian science and engineering awards]]
[[Category:Academic awards]]
[[Category:Scientific research foundations]]
[[Category:Physics organizations]]
[[Category:Awards established in 2012]]

Content Management Interoperability Services

2012-02-28T20:29:09Z

ChristophLZA: This is a really, really bad article...

{{primary sources|date=October 2011}}
{{cleanup-rewrite}}
{{Infobox file format
| name = CMIS
| icon = [[File:Cmis logo.png|200px]]
| extension =
| mime =
| owner =
| creatorcode =
| genre = [[Enterprise Content Management]]
| containerfor =
| containedby =
| extendedfrom = [[SOAP]]
| extendedto =
}}
'''Content Management Interoperability Services (CMIS)''' is an [[open standard]] that defines an [[abstraction layer]] for controlling diverse [[document management systems|document management systems and repositories]] using [[World Wide Web|web]] [[Communications protocol|protocols]].
CMIS defines a [[domain model]] plus [[Web service|Web Services]] and [[AtomPub|Restful AtomPub (RFC5023)]] bindings that can be used by applications. [[OASIS (organization)|OASIS]], a web standards consortium, approved CMIS as an OASIS Specification on May 1, 2010.<ref>{{cite web |url=http://docs.oasis-open.org/cmis/CMIS/v1.0/os/cmis-spec-v1.0.pdf |title=The CMIS v1.0 OASIS Standard Specification}}</ref>

CMIS provides a common data model covering typed files and folders with generic properties that can be set or read. There is a set of services for adding and retrieving documents ('objects'). There may be an access control system, a checkout and version control facility, and the ability to define generic relations. Two protocol bindings are defined, one using WSDL and [[Simple Object Access Protocol|SOAP]] and another using [[Representational State Transfer|Representational State Transfer (REST)]], using the [[Atom (standard)|Atom]] convention.<ref>{{Citation
| author = Robin Cover
| title = Vendors Publish Content Management Interoperability Services (CMIS) Standard
| publisher = The Cover Pages
| date = 2008-09-10
| url = http://xml.coverpages.org/ni2008-09-10-a.html
| accessdate = 2010-04-16}}</ref> The model is based on common architectures of document management systems.

Although initiated by [[AIIM]], CMIS is now administered by the OASIS standards body. Participants in the process include [[Adobe Systems Incorporated]], [[Alfresco (software)|Alfresco]], [[EMC Corporation|EMC]], [[Exo platform|eXo]], [[FatWire]], [[HP]], [[IBM]], [[ISIS Papyrus]], [[Liferay]], [[Microsoft]], [[Nuxeo]], [[Open Text Corporation|Open Text]], [[Oracle Corporation|Oracle]] and [[SAP AG|SAP]]. The standard is available for public comment at OASIS.<ref>{{Citation
| author = Mary P McRae
| title = Proposed Charter for OASIS Content Management Interoperability Services (CMIS) TC
| publisher = The Cover Pages
| date = 2008-09-10
| url = http://xml.coverpages.org/OASIS-CMIS-CharterProposal.html
| accessdate = 2010-04-16}}</ref>

== Specification Progress & TC Members ==
The specification is currently approved as [[OASIS (organization)|OASIS]] CMIS v1.0 standard.<ref>[http://www.oasis-open.org/news/oasis-news-2010-05-04.php OASIS Members Approve CMIS Standard]</ref>

There are public discussion lists.<ref>[http://markmail.org/search/?q=list%3Aorg.oasis-open.lists.cmis CMIS specification mailing list]</ref>

The Technical Committee (TC) includes the following organizations:
[[Adobe Systems Incorporated]], [[AIIM]], [[Alfresco (software)|Alfresco Software]], [[ASG Software Solutions]], [[Booz Allen Hamilton]], Content Technologies, [[dotCMS]], [[EMC Corporation]], Entropysoft, [[Exalead|Exalead, Inc.]], [[FatWire]], [[Fidelity Investments]], [[GX Software]], [[HP]], [[IBM]], [[ISIS Papyrus]], [[Microsoft Corporation]], [[Nuxeo]], [[Open Text Corporation]], [[Oracle Corporation]], Quark, [[Pearson PLC]], [[SAP AG]], [[Sun Microsystems]], Wells Fargo, [[WeWebU Software AG]], and Zia Consulting.

==CMIS Benefits==
The CMIS specification provides a Web services interface that:
*Is language-agnostic ([[REST]] and [[SOAP]] are implemented in many languages)
*Decouples web service and content. So CMIS can be used to access an historic document repository.

==Historical notes==
The initial work of developing the momentum and use cases that led to the CMIS proposal was conducted by the iECM Initiative
<ref>[http://www.aiim.org/ResourceCenter/Archive/Article.aspx?ID=31483 AIIM - The iECM Initiative]</ref>
sponsored by [[AIIM]]. This ongoing project<ref>[http://www.aiim.org/Standards/article.aspx?ID=29284 AIIM - Interoperable ECM Standards Committee]</ref> to foster interoperability<ref>[http://www.aiim.org/ResourceCenter/Archive/Article.aspx?ID=30301 AIIM - Interoperable ECM - Fact or Fiction?]</ref> among ECM systems is supported by the collaborative efforts of governmental, commercial, vendor, and consulting organizations.

==List of implementations==
===CMIS Servers===
{| class="wikitable"
|-
! Software
! Capability support
! Open source
! Notes
|-
| [[Alfresco (software)|Alfresco]] 3.3+
|
* ACL=manage
* AllVersionsSearchable=false
* Changes=objectidsonly<ref name="AlfrescoWiki">http://wiki.alfresco.com/wiki/CMIS#Enabling_the_Change_Log</ref>
* ContentStreamUpdatability=anytime
* GetDescendants=true
* GetFolderTree=true
* Multifiling=true
* PWCSearchable=true
* PWCUpdatable=true
* Query=bothcombined
* Renditions=read
* Unfiling=false
* VersionSpecificFiling=false
* Join=none
| {{Yes}}
| Provides extensions to the core CMIS specification to support "aspects" (mixins).<ref>http://code.google.com/a/apache-extras.org/p/alfresco-opencmis-extension/</ref>
|-
| [[Apache Chemistry]] InMemory Server 0.3
|
* ACL=none
* AllVersionsSearchable=false
* Changes=properties
* ContentStreamUpdatability=pwconly
* GetDescendants=true
* GetFolderTree=true
* Multifiling=true
* PWCSearchable=false
* PWCUpdatable=true
* Query=metadataonly
* Renditions=none
* Unfiling=true
* VersionSpecificFiling=false
* Join=none
| {{Yes}}
| Holds all data in memory targeted for testing and development, NOT for production use!
|-
| [[Day Software]] CRX 2.1+
| Unknown
| {{No}}
|
|-
| [[EMC Documentum]] 6.7
|
* ACL=manage
* AllVersionsSearchable=true
* Changes=none
* ContentStreamUpdatability=anytime
* GetDescendants=true
* GetFolderTree=true
* Multifiling=true
* PWCSearchable=false
* PWCUpdatable=false
* Query=With Fulltext: bothcombined; Without Fulltext: metadataonly
* Renditions=read (not implemented for folders)
* Unfiling=false
* VersionSpecificFiling=false
* Join=inneronly
| {{No}}
|
|-
| [[Exo platform|eXo Platform]] with [http://code.google.com/p/xcmis/ xCMIS]
|
* ACL=manage
* AllVersionsSearchable=true
* ContentStreamUpdatability=anytime
* GetDescendants=true
* GetFolderTree=true
* Multifiling=true
* PWCSearchable=true
* PWCUpdatable=true
* Query=bothcombined
* Renditions=read
* Unfiling=true
* VersionSpecificFiling=false
* Join=none
| {{Yes}}
|
The xCMIS project, initially contributed to the Open Source community by eXo, is an implementation of the full stack of Java-based CMIS services. xCMIS also include the client side frameworks for integrating content from different enterprise repositories according to the CMIS standard.

xCMIS provides an out-of-the-box ability to expose an eXo JCR repository, and can be used in conjunction with CMIS gadgets using GWT based client side framework (coming soon to Open Source). Both can be easily integrated to the GateIn portal.

xCMIS supports all the features specified in the CMIS core definition as well as both REST AtomPub and Web Services (SOAP/WSDL) protocol bindings. In addition to architecture supposed to provide an ability to a plug any third party content repository thanks to Storage Provider Interface layer.

So, the idea of the project is to make as simple as possible joining Enterprise Content repositories making all of them CMIS-able and expose them to language-independent CMIS clients using the most convenient protocol. Read more about CMIS in real-life here .

xCMIS project is Packaged as J2EE Web archive ( WAR ) as well as prepared "download and go" Tomcat bundle

|-
| [[Fabasoft Folio Cloud|Fabasoft]]
|
* GetDescendants=true
* GetFolderTree=true
* Multifiling support=true
* ContentStreamUpdatability=anytime
| {{No}}
| Provides extensions to the core CMIS specification to support "aspects" <ref>"Installation and Configuration of Fabasoft Integration for CMIS" at http://www.fabasoft.com/web/guest/company/downloads/documentation</ref>
|-
| [[FileNet|IBM FileNet 5.0]]
| Unknown
| {{No}}
|
|-
| HP Autonomy [[Interwoven]] Worksite 8.5
| Unknown
| {{No}}
|
|-
| [[IBM Lotus Connections|IBM Connections Files 3.0]]
| Unknown
| {{No}}
| Only documents are accessible via CMIS - other content types are inaccessible.
|-
| [[IBM LotusLive|IBM LotusLive Files]]
| Unknown
| {{No}}
|
|-
| [[IBM Quickr|IBM Lotus Quickr 8.5 Lists]]
| Unknown
| {{No}}
| Only data lists are accessible via CMIS - other content types are inaccessible.
|-
| [[ISIS Papyrus]] Objects
|
* ACL=none
* AllVersionsSearchable=true
* Changes=none
* ContentStreamUpdatability=none
* GetDescendants=true
* GetFolderTree=true
* Multifiling=true
* PWCSearchable=false
* PWCUpdatable=false
* Query=none
* Renditions=none
* Unfiling=false
* VersionSpecificFiling=false
* Join=none
| {{No}}
| This module exposes objects defined in the Papyrus Repository. Document instances are mapped through MIME type into CMIS document type and subtypes.
|-
| [[KnowledgeTree]] 3.7+
| Unknown
| {{Yes}}
|
|-
| [[Microsoft SharePoint|Microsoft SharePoint Server]] 2010
| Unknown
| {{No}}
| Requires installation of the Administration Toolkit<ref>http://www.microsoft.com/downloads/en/details.aspx?FamilyId=718447d8-0814-427a-81c3-c9c3d84c456e</ref>
|-
| NCMIS
| Unknown
| {{Yes}}
|
|-
| [[Nuxeo]] Platform 5.5
|
* ACL=none<ref name="NuxeoCapabilities">https://doc.nuxeo.com/x/JIAO#CMISforNuxeo-Capabilities</ref>
* AllVersionsSearchable=true
* Changes=objectidsonly
* ContentStreamUpdatability=pwconly
* GetDescendants=true
* GetFolderTree=true
* Multifiling=false
* PWCSearchable=true
* PWCUpdatable=true
* Query=bothcombined
* Renditions=read
* Unfiling=false
* VersionSpecificFiling=false
* Join=innerandouter
| {{Yes}}
| Proxy documents and secondary content streams are not available through CMIS<ref name="NuxeoModel">https://doc.nuxeo.com/x/JIAO#CMISforNuxeo-Modelmapping</ref>
|-
| [[O3spaces]] 3.2+
| Unknown
| {{No}}
|
|-
| OpenIMS
|
* ContentStreamUpdatability=anytime
* GetDescendants=true
* GetFolderTree=true
* PWCSearchable=true
| {{Yes}}
| Fully integrated into OpenIMS DMS.
|-
|[[OpenText]]
| * Private Working Copy=TRUE
* PWC updatable=TRUE
* PWC searchable=TRUE
* ACL=MANAGE
* ACL propagation=OBJECTONLY
* ACL supported=BOTH
* Changes=NONE
* ContentStreamUpdatability=ANYTIME
* GetDescendants=TRUE
* GetFolderTree=TRUE
* Query=BOTHCOMBINED
* All versions searchable=TRUE
* Join Capability=NONE
* Multifiling support=FALSE
* Unfiling support=FALSE
* Version specific filing=FALSE
* Renditions=NONE
|{{No}}
|With the release of [http://www.opentext.com/2/global/press-release-details.html?id=2407 ECM Suite 2010], OpenText provides support for CMIS. These capabilities are implemented through a CMIS Connector above Enterprise Library Services 10.2.0.
|-
| [[OpenWGA]] 5.2+
| Unknown
| {{No}}
|
|-
| [[Seapine]] [[Surround SCM]] 2011.1
| Unknown
| {{No}}
|
|-
| Sense/Net 6.0+
| Unknown
| {{Yes}}
|
|-
| [[TYPO3]]
| Unknown
| {{Yes}}
|
|-
| [[COI]]
|
* GetDescendants=true
* GetFolderTree=true
* Multifiling support=true
* ContentStreamUpdatability=anytime
* Query=none
| {{No}}
|
|}

===CMIS Clients===
{| class="wikitable"
|-
! Software
! Type
! Technology
! Open source
! Notes
|-
| [[Atlassian]] Confluence + Crowd 3.5+/2.2.2+)
| Application
| [[Java (programming language)|Java]]
| {{No}}
| Access, list, display, edit, upload and delete Enterprise Alfresco files from Confluence. By AppFusions.[http://www.appfusions.com]
|-
| [http://chemistry.apache.org/python/cmislib.html cmislib] (part of [http://chemistry.apache.org/ Apache Chemistry])
| Library
| [[CMU Common Lisp|Python]]
| {{Yes}}
|
|-
| [http://chemistry.apache.org/php/phpclient.html cmis-php-client] (part of [http://chemistry.apache.org/ Apache Chemistry])
| Library
| [[PHP]]
| {{Yes}}
|
|-
| [http://code.google.com/p/cmis-phplib/ CMIS PHPlib]
| Library
| [[PHP]]
| {{Yes}}
|
|-
| [http://code.google.com/p/cmisspaces/ CMIS Spaces]
| Application
| [[Adobe_Flex|Flex]]/[[ActionScript]]
| {{Yes}}
| Flex+AIR RIA Client with desktop drag/drop, Flex+Browser RIA Client, Portlet, ActionScript libraries (both AtomPub REST, SOAP)
|-
| [http://dita.xml.org/product/ditalabs-dita-cmis-explorer DITALabs DITA CMIS Explorer]
| Application
| [[PHP]]/[[ExtJS]]
| {{Yes}}
|
|-
| [http://www.pega.com Connect-CMIS] (Connector in [[Pegasystems|Pegasystems Inc.]] Pega BPM)
| Application
| [[Pega BPM]]
| {{No}}
| Allows for connectivity to any CMIS compliant server from Pega BPM.
|-
| [http://chemistry.apache.org/dotnet/dotcmis.html DotCMIS] (part of [http://chemistry.apache.org/ Apache Chemistry])
| Library
| [[.NET Framework|.NET]]
| {{Yes}}
|
|-
| [[Drupal]] 6.x <ref>http://drupal.org/project/cmis</ref>
| Application
| [[PHP]]
| {{Yes}}
| Can be configured as a CMIS browser.
|-
| [[Hippo CMS]] <ref>http://cmisreplication.forge.onehippo.org/</ref>
| Application
| [[Java (programming language)|Java]]
| {{Yes}}
| Can be configured as a CMIS browser
|-
| [http://sourceforge.net/p/libcmis/ libcmis]
| Library
| [[C++]]
| {{Yes}}
|
|-
| [[Liferay]] 6.1 <ref>{{cite web |url=http://www.liferay.com/web/alexander.chow/blog/-/blogs/mounting-multiple-cmis-repositories-on-liferay-6-1 |title=Mounting Multiple CMIS Repositories on Liferay 6.1 |author=Alexander Chow |date= February 25, 2011 |accessdate=18 October 2011 }}</ref>
| Application
| [[Java (programming language)|Java]]
| {{Yes}}
| Synchronizes Liferay's document repository with CMIS servers.
|-
| [http://chemistry.apache.org/java/opencmis.html OpenCMIS] (part of [http://chemistry.apache.org/ Apache Chemistry])
| Library
| [[Java (programming language)|Java]]
| {{Yes}}
| Includes some CMIS server functionality as well, but is not a fully fledged CMIS server by itself.
|-
| [http://www.openims.com OpenIMS]
| Application
| [[PHP]]
| {{Yes}}
| Can synchronize document store with CMIS servers.
|-
| [http://www.openworkdesk.org OpenWorkdesk] ([http://www.wewebu-software.com/ WeWebU Software AG])
| Application
| [[Java (programming language)|Java]]/[[ExtJS]]
| {{Yes}}
| An application suite (not just a CMIS browser!) for Enterprise Content Management (ECM) with an intuitive Web 2.0 front-end.
|-
| Papyrus CMIS Adapter
| Application
| [[Papyrus_Platform|Papyrus Objects]]
| {{No}}
| The module communicates with CMIS repositories directly through Papyrus Query Language (PQL).
|-
| SAP Netweaver ABAP 7.03 / 7.31
| API
| [[ABAP]]
| {{No}}
| ECM Integration Layer supports CMIS repositories
|-
| [http://silverstripe.org/alfresco-connector-module CMIS Connector] (Module of the [[SilverStripe]] CMS)
| Application
| [[PHP]]
| {{Yes}}
| The module can integrate external content via a CMIS connection into the [[SilverStripe]] CMS.
|-
| Struts2CmisExplorer<ref>http://code.google.com/p/struts2cmisexplorer/</ref>
| Application
| [[Java]]/[[Struts2]]
| {{Yes}}
|
|-
| [[WordPress]] <ref>http://www.unorganizedmachines.com/site/software-and-technology/34-software-development/104-cmis-wordpress-plugin</ref>
| Application
| [[PHP]]
| {{Yes}}
| Can be configured as a CMIS browser
|-
| [http://www.wewebu.com/en/zero-install-desktop-integration Zero-Install Desktop Integration (ZIDI)] ([http://www.wewebu-software.com/ WeWebU Software AG])
| Application
| [[Java (programming language)|Java]]
| {{No}}
| ZIDI allows using an ECM system intuitively and with virtually no training effort from a wide range of desktop applications like Microsoft Office and Adobe Acrobat but also from open source programs like OpenOffice.
|}

===Unknown===
Can someone who knows more about these products please allocate each of these products into one, and only one, of the above lists (client or server)?
{| class="wikitable"
|-
! Software
! Language
! Open source
|-
| [[ActiveCMIS]]
| [[Ruby (programming language)|Ruby]]
| {{Yes}}
|-
| Constellio
| [[Java (programming language)|Java]]
| {{Yes}}
|-
| [[ECM Mobile]]
| [[Java (programming language)|Java]]
| {{Yes}}
|-
| [[enprovia Mobile Enabler]] 2.0
| [[Java (programming language)|Java]]
| {{No}}
|-
| [[Exstream Software]]
| [[Java (programming language)|Java]]
| {{No}}
|}

==References==

{{Reflist}}

==See also==
* [[Content repository API for Java]]
* [[WebDAV]]

[[Category:Standards]]
[[Category:Content management systems]]
[[Category:XML-based standards]]
[[Category:Atom (standard)]]

[[fr:CMIS]]
[[ru:Content Management Interoperability Services]]