incubator-general mailing list archives

Site index · List index
Message view « Date » · « Thread »
Top « Date » · « Thread »
From Dave Fisher <dave2w...@comcast.net>
Subject Re: [INVALID][RESULT][VOTE] Accept MRQL into the Incubator
Date Thu, 14 Mar 2013 23:48:27 GMT
I think that this vote should be invalidated.

Are the five binding votes from IPMC members?

It is not 5.

Also, should proposals with only 1 valid Mentor be acceptable?

If two members of the IPMC step forward to Mentor MRQL I might change my mind.

Regards,
Dave

On Mar 12, 2013, at 2:12 AM, Edward J. Yoon wrote:

> The VOTE has passed with 5 binding +1's and no -1s.
> 
> I'll start the work to get the podling started.
> 
> Thank you.
> 
> On Sun, Mar 10, 2013 at 3:48 AM, Mattmann, Chris A (388J)
> <chris.a.mattmann@jpl.nasa.gov> wrote:
>> +1 from me (binding).
>> 
>> Good luck!
>> 
>> Cheers,
>> Chris
>> 
>> 
>> On 3/6/13 9:04 AM, "Leonidas Fegaras" <fegaras@cse.uta.edu> wrote:
>> 
>>> Dear ASF members,
>>> I would like to call for a VOTE for acceptance of MRQL into the
>>> Incubator.
>>> The vote will close on Monday March 11, 2013.
>>> 
>>> [ ] +1 Accept MRQL into the Apache incubator
>>> [ ] +0 Don't care.
>>> [ ] -1 Don't accept MRQL into the incubator because...
>>> 
>>> Full proposal is pasted below and the corresponding wiki is
>>> 
>>> http://wiki.apache.org/incubator/MRQLProposal
>>> 
>>> Only VOTEs from Incubator PMC members are binding,
>>> but all are welcome to express their thoughts.
>>> Sincerely,
>>> Leonidas Fegaras
>>> 
>>> 
>>> = Abstract =
>>> 
>>> MRQL is a query processing and optimization system for large-scale,
>>> distributed data analysis, built on top of Apache Hadoop and Hama.
>>> 
>>> = Proposal =
>>> 
>>> MRQL (pronounced ''miracle'') is a query processing and optimization
>>> system for large-scale, distributed data analysis. MRQL (the MapReduce
>>> Query Language) is an SQL-like query language for large-scale data
>>> analysis on a cluster of computers. The MRQL query processing system
>>> can evaluate MRQL queries in two modes: in MapReduce mode on top of
>>> Apache Hadoop or in Bulk Synchronous Parallel (BSP) mode on top of
>>> Apache Hama. The MRQL query language is powerful enough to express
>>> most common data analysis tasks over many forms of raw ''in-situ''
>>> data, such as XML and JSON documents, binary files, and CSV
>>> documents. MRQL is more powerful than other current high-level
>>> MapReduce languages, such as Hive and PigLatin, since it can operate
>>> on more complex data and supports more powerful query constructs, thus
>>> eliminating the need for using explicit MapReduce code. With MRQL,
>>> users will be able to express complex data analysis tasks, such as
>>> PageRank, k-means clustering, matrix factorization, etc, using
>>> SQL-like queries exclusively, while the MRQL query processing system
>>> will be able to compile these queries to efficient Java code.
>>> 
>>> = Background =
>>> 
>>> The initial code was developed at the University of Texas of Arlington
>>> (UTA) by a research team, led by Leonidas Fegaras. The software was
>>> first released in May 2011. The original goal of this project was to
>>> build a query processing system that translates SQL-like data analysis
>>> queries to efficient workflows of MapReduce jobs. A design goal was to
>>> use HDFS as the physical storage layer, without any indexing, data
>>> partitioning, or data normalization, and to use Hadoop (without
>>> extensions) as the run-time engine. The motivation behind this work
>>> was to build a platform to test new ideas on query processing and
>>> optimization techniques applicable to the MapReduce framework.
>>> 
>>> A year ago, MRQL was extended to run on Hama. The motivation for this
>>> extension was that Hadoop MapReduce jobs were required to read their
>>> input and write their output on HDFS. This simplifies reliability and
>>> fault tolerance but it imposes a high overhead to complex MapReduce
>>> workflows and graph algorithms, such as PageRank, which require
>>> repetitive jobs. In addition, Hadoop does not preserve data in memory
>>> across consecutive MapReduce jobs. This restriction requires to read
>>> data at every step, even when the data is constant. BSP, on the other
>>> hand, does not suffer from this restriction, and, under certain
>>> circumstances, allows complex repetitive algorithms to run entirely in
>>> the collective memory of a cluster. Thus, the goal was to be able to
>>> run the same MRQL queries in both modes, MapReduce and BSP, without
>>> modifying the queries: If there are enough resources available, and
>>> low latency and speed are more important than resilience, queries may
>>> run in BSP mode; otherwise, the same queries may run in MapReduce
>>> mode. BSP evaluation was found to be a good choice when fault
>>> tolerance is not critical, data (both input and intermediate) can fit
>>> in the cluster memory, and data processing requires complex/repetitive
>>> steps.
>>> 
>>> The research results of this ongoing work have already been published
>>> in conferences (WebDB'11, EDBT'12, and DataCloud'12) and the authors
>>> have already received positive feedback from researchers in academia
>>> and industry who were attending these conferences.
>>> 
>>> = Rationale =
>>> 
>>> * MRQL will be the first general-purpose, SQL-like query language for
>>> data analysis based on BSP.
>>> Currently, many programmers prefer to code their MapReduce
>>> applications in a higher-level query language, rather than an
>>> algorithmic language. For instance, Pig is used for 60% of Yahoo
>>> MapReduce jobs, while Hive is used for 90% of Facebook MapReduce
>>> jobs. This, we believe, will also be the trend for BSP applications,
>>> because, even though, in principle, the BSP model is very simple to
>>> understand, it is hard to develop, optimize, and maintain non-trivial
>>> BSP applications coded in a general-purpose programming
>>> language. Currently, there is no widely acceptable declarative BSP
>>> query language, although there are a few special-purpose BSP systems
>>> for graph analysis, such as Google Pregel and Apache Giraph, for
>>> machine learning, such as BSML, and for scientific data analysis.
>>> 
>>> * MRQL can capture many complex data analysis algorithms in
>>> declarative form.
>>> Existing MapReduce query languages, such as HiveQL and PigLatin,
>>> provide a limited syntax for operating on data collections, in the
>>> form of relational joins and group-bys. Because of these limitations,
>>> these languages enable users to plug-in custom MapReduce scripts into
>>> their queries for those jobs that cannot be declaratively coded in
>>> their query language. This nullifies the benefits of using a
>>> declarative query language and may result to suboptimal, error-prone,
>>> and hard-to-maintain code. More importantly, these languages are
>>> inappropriate for complex scientific applications and graph analysis,
>>> because they do not directly support iteration or recursion in
>>> declarative form and are not able to handle complex, nested scientific
>>> data, which are often semi-structured. Furthermore, current MapReduce
>>> query processors apply traditional query optimization techniques that
>>> may be suboptimal in a MapReduce or BSP environment.
>>> 
>>> * The MRQL design is modular, with pluggable distributed processing
>>> back-ends, query languages, and data formats.
>>> MRQL aims to be both powerful and adaptable. Although Hadoop is
>>> currently the most popular framework for large-scale data analysis,
>>> there are a few alternatives that are currently shaping form,
>>> including frameworks based on BSP (eg, Giraph, Pregel, Hama), MPI
>>> (eg, OpenMPI), etc. MRQL was designed in such a way so that it will
>>> be easy to support other distributed processing frameworks in the
>>> future. As an evidence of this claim, the MRQL processor required
>>> only 2K extra lines of Java code to support BSP evaluation.
>>> 
>>> = Initial Goals =
>>> 
>>> Some current goals include:
>>> 
>>> * apply MRQL to graph analysis problems, such as k-means clustering
>>> and PageRank
>>> 
>>> * apply MRQL to large-scale scientific analysis (develop general
>>> optimization techniques that can apply to matrix multiplication,
>>> matrix factorization, etc)
>>> 
>>> * process additional data formats, such as Avro, and column-based
>>> stores, such as HBase
>>> 
>>> * map MRQL to additional distributed processing frameworks, such as
>>> Spark and OpenMPI
>>> 
>>> * extend the front-end to process more query languages, such as
>>> standard SQL, SPARQL, XQuery, and PigLatin
>>> 
>>> = Current Status =
>>> 
>>> The current MRQL release (version 0.8.10) is a beta release. It is
>>> built on top of Hadoop and Hama (no extensions are needed). It
>>> currently works on Hadoop up to 1.0.4 (but not on Yarn yet) and Hama
>>> 0.5.0. It has only been tested on a small cluster of 20 nodes (80
>>> cores).
>>> 
>>> == Meritocracy ==
>>> 
>>> The initial MRQL code base was developed by Leonidas Fegaras in May
>>> 2011, and was continuously improved throughout the years. We will
>>> reach out other potential contributors through open forums. We plan
>>> to do everything possible to encourage an environment that supports a
>>> meritocracy, where contributors will extend their privileges based on
>>> their contribution. MRQL's modular design will facilitate the
>>> strategic extensions to various modules, such as adding a standard-SQL
>>> interface, introducing new optimization techniques, etc.
>>> 
>>> == Community ==
>>> 
>>> The interest in open-source query processing systems for analyzing
>>> large datasets has been steadily increased in the last few years.
>>> Related Apache projects have already attracted a very large community
>>> from both academia and industry. We expect that MRQL will also
>>> establish an active community. Several researchers from both academia
>>> and industry who are interested in using our code have already
>>> contacted us.
>>> 
>>> == Core Developers ==
>>> 
>>> The initial core developer was Leonidas Fegaras, who wrote the
>>> majority of the code. He is an associate professor at UTA, with
>>> interests in cloud computing, databases, web technologies, and
>>> functional programming. He has an extensive knowledge and working
>>> experience in building complex query processing systems for databases,
>>> and compilers for functional and algorithmic programming languages.
>>> 
>>> == Alignment ==
>>> 
>>> MRQL is built on top of two Apache projects: Hadoop and Hama. We have
>>> plans to incorporate other products from the Hadoop ecosystem, such as
>>> Avro and HBase. MRQL can serve as a testbed for fine-tuning and
>>> evaluating the performance of the Apache Hama system. Finally, the
>>> MRQL query language and processor can be used by Apache Drill as a
>>> pluggable query language.
>>> 
>>> = Known Risks =
>>> 
>>> == Orphaned Products ==
>>> 
>>> The initial committer is from academia, which may be a risk, since
>>> research in academia is publication-driven, rather than
>>> product-driven. It happens very often in academic research, when a
>>> project becomes outdated and doesn't produce publishable results, to
>>> be abandoned in favor of new cutting-edge projects. We do not believe
>>> that this will be the case for MRQL for the years to come, because it
>>> can be adapted to support new query languages, new optimization
>>> techniques, and new distributed back-ends, thus sustaining enough
>>> research interest. Another risk is that, when graduate students who
>>> write code graduate, they may leave their work undocumented and
>>> unfinished. We will strive to gain enough momentum to recruit
>>> additional committers from industry in order to eliminate these risks.
>>> 
>>> == Inexperience with Open Source ==
>>> 
>>> The initial developer has been involved with various projects whose
>>> source code has been released under open source license, but he has no
>>> prior experience on contributing to open-source projects. With the
>>> guidance from other more experienced committers and participants, we
>>> expect that the meritocracy rules will have a positive influence on
>>> this project.
>>> 
>>> == Homogeneous Developers ==
>>> 
>>> The initial committer comes from academia. However, given the interest
>>> we have seen in the project, we expect the diversity to improve in the
>>> near future.
>>> 
>>> == Reliance on Salaried Developers ==
>>> 
>>> Currently, the MRQL code was developed on the committer's volunteer
>>> time. In the future, UTA graduate students who will do some of the
>>> coding may be supported by UTA and funding agencies, such as NSF.
>>> 
>>> == Relationships with Other Apache Products ==
>>> 
>>> MRQL has some overlapping functionality with Hive and Tajo, which are
>>> Data Warehouse systems for Hadoop, and with Drill, which is an
>>> interactive data analysis system that can process nested data. MRQL
>>> has a more powerful data model, in which any form of nested data, such
>>> as XML and JSON, can be defined as a user-defined datatype. More
>>> importantly, complex data analysis tasks, such as PageRank, k-means
>>> clustering, and matrix multiplication and factorization, can be
>>> expressed as short SQL-like queries, while the MRQL system is able to
>>> evaluate these queries efficiently. Furthermore, the MRQL system can
>>> run these queries in BSP mode, in addition to MapReduce mode, thus
>>> achieving low latency and speed, which are also Drill's goals.
>>> Nevertheless, we will welcome and encourage any help from these
>>> projects and we will be eager to make contributions to these projects
>>> too.
>>> 
>>> == An Excessive Fascination with the Apache Brand ==
>>> 
>>> The Apache brand is likely to help us find contributors and reach out
>>> to the open-source community. Nevertheless, since MRQL depends on
>>> Apache projects (Hadoop and Hama), it makes sense to have our software
>>> available as part of this ecosystem.
>>> 
>>> = Documentation =
>>> 
>>> Information about MRQL can be found at http://lambda.uta.edu/mrql/
>>> 
>>> = Initial Source =
>>> 
>>> The initial MRQL code has been released as part of a research project
>>> developed at the University of Texas at Arlington under the Apache 2.0
>>> license for the past two years. The source code is currently hosted
>>> on GitHub at: https://github.com/fegaras/mrql MRQL’s release artifact
>>> would consist of a single tarball of packaging and test code.
>>> 
>>> = External Dependencies =
>>> 
>>> The MRQL source code is already licensed under the Apache License,
>>> Version 2.0. MRQL uses JLine which is distributed under the BSD
>>> license.
>>> 
>>> = Cryptography =
>>> 
>>> Not applicable.
>>> 
>>> = Required Resources =
>>> 
>>> == Mailing Lists ==
>>> 
>>> * mrql-private
>>> * mrql-dev
>>> * mrql-user
>>> 
>>> == Subversion Directory ==
>>> 
>>> * Git is the preferred source control system:
>>> git://git.apache.org/mrql
>>> 
>>> == Issue Tracking ==
>>> 
>>> * A JIRA issue tracker, MRQL
>>> 
>>> == Wiki ==
>>> 
>>> * Moinmoin wiki, http://wiki.apache.org/mrql
>>> 
>>> = Initial Committers =
>>> 
>>> * Leonidas Fegaras <fegaras AT cse DOT uta DOT edu>
>>> * Upa Gupta <upa.gupta AT mavs DOT uta DOT edu>
>>> * Edward J. Yoon <edwardyoon AT apache DOT org>
>>> * Maqsood Alam <maqsoodalam AT hotmail DOT com>
>>> * John Hope <john.hope AT oracle DOT com>
>>> * Mark Wall <mark.wall AT oracle DOT com>
>>> * Kuassi Mensah <kuassi.mensah AT oracle DOT com>
>>> * Ambreesh Khanna <ambreesh.khanna AT oracle DOT com>
>>> * Karthik Kambatla <kasha AT cloudera DOT com>
>>> 
>>> = Affiliations =
>>> 
>>> * Leonidas Fegaras (University of Texas at Arlington)
>>> * Upa Gupta (University of Texas at Arlington)
>>> * Edward J. Yoon (Oracle corp)
>>> * Maqsood Alam (Oracle corp)
>>> * John Hope (Oracle corp)
>>> * Mark Wall (Oracle corp)
>>> * Kuassi Mensah (Oracle corp)
>>> * Ambreesh Khanna (Oracle corp)
>>> * Karthik Kambatla (Cloudera)
>>> 
>>> = Sponsors =
>>> 
>>> == Champion ==
>>> 
>>> * Edward J. Yoon <edwardyoon AT apache DOT org>
>>> 
>>> == Nominated Mentors ==
>>> 
>>> * Alex Karasulu <akarasulu AT apache DOT org>
>>> * Edward J. Yoon <edwardyoon AT apache DOT org>
>>> 
>>> == Sponsoring Entity ==
>>> 
>>> Incubator PMC
>>> 
>> 
> 
> 
> 
> -- 
> Best Regards, Edward J. Yoon
> @eddieyoon
> 
> ---------------------------------------------------------------------
> To unsubscribe, e-mail: general-unsubscribe@incubator.apache.org
> For additional commands, e-mail: general-help@incubator.apache.org
> 


---------------------------------------------------------------------
To unsubscribe, e-mail: general-unsubscribe@incubator.apache.org
For additional commands, e-mail: general-help@incubator.apache.org


Mime
View raw message