Adventures in Scaling Galaxy at Biological Data Science 2014

Transcript

1. @jxtx / #usegalaxy https://speakerdeck.com/jxtx

2. …in which I will not talk about the elephant whale

   in the room…

3. Galaxy’s motivating questions How best can data intensive methods be

   accessible to scientists?
   How best to facilitate transparent communication of computational analyses? How best to ensure that analyses are reproducible*? *The state of which is frighteningly bad, see doi:10.1038/nrg3305, doi:10.7717/peerj.148

4. Galaxy: accessible analysis system

5. A free (for everyone) web service integrating a wealth of

   tools, compute resources, terabytes of reference data and permanent storage Open source software that makes integrating your own tools and data and customizing for your own site simple An open extensible platform for sharing tools, datatypes, workflows, ...

6. Describe analysis tool behavior abstractly Analysis environment automatically and transparently

   tracks details Workflow system for complex analysis, constructed explicitly or automatically Pervasive sharing, and publication of documents with integrated analysis

7. Visualization and visual analytics

8. Wait… what… a free web-service for high throughput sequence data

   analysis?!

9. Galaxy as a Service
   Public web site that anyone can

   use for free
   ~1,200 new users, ~20 TB of user data uploaded, and ~180,000 analysis jobs per month
   Since 2010, disk quotas (250Gb per user) and compute limits (4 concurrent analyses)
   http://usegalaxy.org

10. ounded with a $1.5 million initial award, NCGAS dened and

    optimized genome analysis softw

11. New Data per Month (TB) 0 30 60 90 120

    2008-04 2008-08 2008-12 2009-04 2009-08 2009-12 2010-04 2010-08 2010-12 2011-04 2011-08 2011-12 2012-04 2012-08 2012-12 2013-04 2013-08 usegalaxy.org data growth +128 cores for NGS/multicore jobs Data quotas implemented... Nate Coraor

12. usegalaxy.org frustration growth Jobs Deleted Before Run (% of submitted)

    0% 2% 5% 7% 9% Total Jobs Completed (count) 0 40,000 80,000 120,000 160,000 2008-04 2008-08 2008-12 2009-04 2009-08 2009-12 2010-04 2010-08 2010-12 2011-04 2011-08 2011-12 2012-04 2012-08 2012-12 2013-04 2013-08 Nate Coraor

13. Scaling plan one: Decentralize!

14. Local Galaxy Deployment
    Galaxy is designed for local installation and

    customization... just download and run
    Pluggable interfaces to compute resources, easily connect to one or more existing clusters
    Ideally, allow users to take advantage of whatever computational resources they already have access to.

15. More than 60 known public Galaxy servers
    Ballaxy for

    structure based computational biology,
    Cistrome for regulatory sequence analysis,
    Genomic Hyperbrowser: statistical integration of genomic data,
    GigaGalaxy: integrating workflows published in GigaScience,
    Pathogen Portal:comparative analysis of host response to pathogens,
    ...
    Dozens of large scale private Galaxy instances
16. None
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21. Welcome to Galaxy on the Cloud(s)

22. CloudMan: a general purpose deployment manager for ANY cloud Enis

    Afgan, Dannon Baker Atmosphere

23. Enis Afgan, Dannon Baker

24. That was a great plan! …but users still want one

    easy to use gateway

25. Scaling plan two: beg, borrow, steal!

26. None

27. Best place to build this robust entry point is clearly

    a national supercomputing center The Texas Advanced Computing Center (TACC) has already built substantial infrastructure in the context of the iPlant project (Including multi petabyte online storage, cloud infrastructure, collocated with some of the worlds largest HPC machines) However, the iPlant and TACC cyber-infrastructure was underused; thus we established a collaboration Since October 2013 Galaxy Main has run from TACC

28. Still not enough!

29. Blacklight (PSC) Messaging Server Pulsar Galaxy Server Processes Stampede (TACC)

    Galaxy Server VMs (TACC) Pulsar Job control (AMQP) Data transfer (HTTPS) Data transfer (HTTPS) John Chilton Pulsar: Galaxy job runner that can run almost anywhere. No shared filesystem, stages all necessary Galaxy components

30. PSC, Pittsburgh SDSC, San Diego Galaxy Cluster • 256 cores

    • 2 TB memory Rodeo • 128 cores • 1 TB memory Corral/Stockyard • 20 PB disk Stampede • 462,462 cores • 205 TB memory Blacklight • 4,096 cores • 32 TB memory • Dedicated resources Trestles • 10,368 cores • 20.7 TB memory • Shared resources TACC Austin Nate Coraor

31. Nate Coraor

32. Result: No waiting for jobs to run on usegalaxy.org! (for

    now…)

33. Bringing it all together: automate all the things! Unified ansible

    playbook for Galaxy main, cloud, and local deployments

34. Dannon Baker Dan Blankenberg Dave Bouvier http://wiki.galaxyproject.org/GalaxyTeam Enis Afgan Marten

    Čech Nate Coraor Carl Eberhard Jeremy Goecks Ross Lazarus Anton Nekrutenko James Taylor The Galaxy Team Jen Jackson Sam Guerler Dave Clements John Chilton

35. 23 Logos ional Logos ne the university or Hopkins name

    and the nterdisciplinary center retain distinctive mmon shield shape. iversity logo. Vertical ptable. Primary school alth ces d International Studies olor, clear space, size, Biomedical Engineering Joel Bader Mike Beer Rachel Karchin Steven Salzberg Computer Science Alexis Battle Ben Langmead Suchi Saria Applied Math Don Geman Oncology Elana Fertig Luigi Marchionni Robert Scharpf Sarah Wheelan Medicine Lilian Florea Mihaela Pertea Jiang Qian Biostatistics Kasper Hansen Hongkai Ji Jeff Leek Ingo Ruczinski Cristian Tomasetti Biology James Taylor Computational Biology, Genomics, and Bioinformatics at Johns Hopkins University http://ccb.jhu.edu

36. Bloomberg Distinguished Professorship in Evolutionary Genomics. The Johns Hopkins University

    is searching for an outstanding senior scientist in the area of Evolutionary Genomics for an endowed chair as a Bloomberg Distinguished Professor. This position will be held jointly between the Department of Biology (Krieger School of Arts and Sciences) and the Institute for Genetic Medicine (JHU School of Medicine). Tenure-Track Faculty Position in Data Intensive Biology
 The Department of Biology seeks to hire a tenure-track Assistant Professor who applies data intensive approaches to investigate biological problems in creative and innovative ways… Candidates who apply computational, quantitative, or data intensive methods in any area of Biology will be considered… More Info: http://www.bio.jhu.edu/Events/Jobs/Default.aspx Or contact me: [email protected]

37. John Chilton