Condor week summary: Difference between revisions

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Day 2 talk were focused on use cases of Condor at different institutions, research labs, and companies and their specific implementations for the same.  
Day 2 talk were focused on use cases of Condor at different institutions, research labs, and companies and their specific implementations for the same.  


Session 1:
===Session 1:===
* Brookhaven National Lab: Virtualization  
* Brookhaven National Lab: Virtualization  
* UAB: Pilot
* UAB: Pilot
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* RENCI: Condor in networked clouds (ORCA-Open Resource Control Architecture)
* RENCI: Condor in networked clouds (ORCA-Open Resource Control Architecture)


Session 2:
===Session 2:===
* Redhat: Redhat and Condor Developer community (MRG- Messaging, realtime, grid)
* Redhat: Redhat and Condor Developer community (MRG- Messaging, realtime, grid)
* The Hartford: GPU computing with Condor (250 M2070, two pools, Windows, ~7000 cores, actuarial, financial modelling, everything written in CUDA in-house, 40x-60x improvement)
* The Hartford: GPU computing with Condor (250 M2070, two pools, Windows, ~7000 cores, actuarial, financial modelling, everything written in CUDA in-house, 40x-60x improvement)
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* Aptina: Condor in a 24x7 manufacturing environment
* Aptina: Condor in a 24x7 manufacturing environment


Session 3:
===Session 3:===
* UW-Madison: Deep Linguistic Processing with Condor (ad-hoc Map reduce cluster, daily crawl onto millions of webpages using condor, making logical relations)
* UW-Madison: Deep Linguistic Processing with Condor (ad-hoc Map reduce cluster, daily crawl onto millions of webpages using condor, making logical relations)
* U.S. Geologic Survey: Hydrological Modelling
* U.S. Geologic Survey: Hydrological Modelling
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* OSMOSIX: Condor integrated Cloud bursting (brain imaging applications)
* OSMOSIX: Condor integrated Cloud bursting (brain imaging applications)


 
===Session 4:===
Session 4:
* MIT: MW for mixed integer non -linear problems (Master worker, branch and bound, Coupe-COUenne Parallel Extensions)
* MIT: MW for mixed integer non -linear problems (Master worker, branch and bound, Coupe-COUenne Parallel Extensions)
* Notre Dame: Compiling and linking workflows (Student of Dough Thain, working off Makeflow, Weaver,Abstraction: simple programming interface, hides details of distributed system, Workflows: exploit natural parallelism, large applications, abstractions DAG)
* Notre Dame: Compiling and linking workflows (Student of Dough Thain, working off Makeflow, Weaver,Abstraction: simple programming interface, hides details of distributed system, Workflows: exploit natural parallelism, large applications, abstractions DAG)
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==Day 3: Talks==
==Day 3: Talks==
 
===Session 1:===
Session 1:
* Fermilab: FermiCloud--Dynamic Resource Provisioning (High availability, Open Nebula-cloud 2.0 command line launch  
* Fermilab: FermiCloud--Dynamic Resource Provisioning (High availability, Open Nebula-cloud 2.0 command line launch  
Virtual machines distributed via SCP
Virtual machines distributed via SCP
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* Fermilab: OSG (background, resources, provisioning, opportunistic use, HTC in parallel)
* Fermilab: OSG (background, resources, provisioning, opportunistic use, HTC in parallel)


Session 2:  
===Session 2: ===
* Cycle Computing: Cycle computing (Condor or the cloud, 50000 core cluster, commercial use)
* Cycle Computing: Cycle computing (Condor or the cloud, 50000 core cluster, commercial use)
* Morgridge Institute for Research: NGS (genome sequencing, interest in Galaxy)
* Morgridge Institute for Research: NGS (genome sequencing, interest in Galaxy)
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* Embraer: Condor at Embraer (use care, muultiphysics, additional scripts)
* Embraer: Condor at Embraer (use care, muultiphysics, additional scripts)


Session 3:
===Session 3:===
* UCSD: CMS - move requirements out of users hands  
* UCSD: CMS - move requirements out of users hands  
* Dreamworks: Condor at Dreamworks (Condor render farms, each film -5yrs, 65 Million CPU hours, 200TB data, 500+ million files)
* Dreamworks: Condor at Dreamworks (Condor render farms, each film -5yrs, 65 Million CPU hours, 200TB data, 500+ million files)
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* Condor Project: Love Preemption
* Condor Project: Love Preemption


Session 4:
===Session 4:===
* Purdue: BLAST and Bioinformatics on DiaGrid (use case)
* Purdue: BLAST and Bioinformatics on DiaGrid (use case)
* U. Nebraska Lincoln: Putting Condor in a container (Cgroups, namespaces)
* U. Nebraska Lincoln: Putting Condor in a container (Cgroups, namespaces)
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* Condor Project: Use of Cisco UCS
* Condor Project: Use of Cisco UCS
* Condor Project: What's new and Whats coming (v7.8, dynamic partition-able slots, statistics, IPv6, support SGE, Globus, resource management)
* Condor Project: What's new and Whats coming (v7.8, dynamic partition-able slots, statistics, IPv6, support SGE, Globus, resource management)




==Day 4: Discussion Panels ==
==Day 4: Discussion Panels ==

Revision as of 20:13, 8 May 2012

Condor week 2012, UW-Madison, May 1 - May 5, 2012

Attendees: John-Paul Robinson, Poornima Pochana, Thomas Anthony

Website: http://research.cs.wisc.edu/condor/CondorWeek2012/

Condor Week is a four day annual event that gives collaborators and users the chance to exchange ideas and experiences, to learn about latest research, and to influence our short and long term research and development directions.


Day 1: Tutorials

Basic Introduction to using Condor: Karen Miller

Background HTC Definitions: Job, Class Ads, Match Making, Central Manager, Submit host, Execute Host

What Condor does: submit- condor bundles up the executable and input files, condor locates a machine, runs the job, and gets the output back to the submit host.

Requirements (needs), Rank( preferences)

Condor Class Ads: used to describe aspects of each item outside condor. job Class ad: machine class ad:

Match making: requirement, rank and priorities (fair share allocation)

Getting started: universe, make job batch -ready, submit file, condor_submit

Universe-environment batch ready- run w/o interaction (as if in the background), make input, output available, data files submit description file- # comments, commands on left are not case sensitive, filenames are

Good advice: always have a log file

file transfer; Transfer_Input_Files, Transfer_Output_Files

Should_transfer_Files: Yes (no shared files system), NO (use shared FS) IF_NEEDED

emails: NOTIFICATION = complete, never, error, error, always.

Job Identifier: cluster.process eg. 20.1, 20.2 etc..

Multiple jobs : to create directories (based on the process id) InitialDir=run_0,run_1 etc… Queue all 1,000,000 jobs

Queue 100000 $(Process)

use macro subs: %this gives the process id.. InitialDir=run_$(Process)


Condor and Workflows: Nathan Panike

Introduction: Workflows? sequence of connected steps..

launch and forget

DAG MAN -dependencies define possible order of job execution


Pegasus - A system to run, manage and debug complex workflows on top of Condor: Karan Vahi

Scientific workflows,larger monolithic applications broken to smaller jobs

Why workflows: portable, scalable, reuse, reproduce, WMS-recovery

Pegasus: local desktop, local condor pool. campus cluster.

Pegasus GUI Mapping- workflow monitoring: SQLite and MySQL, python api to query, transfers executable s as part of workflow


Basic Condor Administration: Alan De Semet

Starting job: condor_master= all machines.. (start other processes)

Central manager: master, negotiator, collector collector: daemon knows about other daemons

Submit: master, schedd, schedd--.>shadow

Compute machine: master, startd, startd --->starter ---> launches Job

condor compile---> calls condor Syscall Lib

***** configuration file*****
/etc/condor/condor_config

LOCAL_CONFIG_FILE (CSV)

long entry \ splits across multiple lines

****Policy****** specified in condor_config ends up in slot ClassAD

Machine -- one computer, managed by one started

START Policy: RANK- floating point, larger number are higher ranked, Suspend and continue: Preemt (polite) Kill (sigkill)

Slot states: Custom slot attributes: dynamic attributes settings STARTD_CRON_*

***Job priorities*** condor_userprio: lower number means more machines.. real priority and priority factor:

priority factor-default is 1,assign it user by user basis

preemption_requirements=false  % no preemption

***Tools***

condor_config_val 

condor_conifg_cal -v CONDOR_HOST

condor_conifg_cal config


condor_Status -master

conder_status -long (everything)

condor_status -format '%s' Arch -format '%s\n' 

-constraint  -format

condor_q -analyze

Debug level: D_FULLDEBUG D_COMMAND


Security: Lockdown a Condor Pool: Zach Miller

Trust, authentication > authorization machines, users

schedd -daemon-daemon authentication Pool password- hash (unix) registry( Windows)

condor_store_cred -c add

SSL instead of pool password condor map file--> map to specific canonical name


Condor High Availability :Rob Rati / Will Benton (Red Hat)

Master based high availability: wallaby project cluster suite (Red Hat)


Remote Condor:Jeff Dost (UCSD)

What is remote Condor: Condor over ssh available in Condor contrib as RCONDOR

authentication using shh, no local servers, wifi friends, easy

Install: get src tar, make and install

install sshfs

rcondor_Config


Configuration of Partition-able slots: Greg Thain

Out of box 8core 8GB (1GB/core) default does not work because of different memory requirements

Static requirements work but still not better (wait for entire machine to be free and reinitialize the entire machine as single slot) https://condor-wiki.cs.wisc.edu/index.cgi/wiki?p=WholeMachineSlots

partitionable slot: introduced v7.2

8cores 8GB, can be partitioned as 1core + 4GB and the remaining 4 GB distributed among the other 7cores (585.14 MB) or any way the user wants to partition the slot..

The slots are De-fragmented occasionally so that jobs with different requirements can run.

Condor Statistics on your submit Node: TJ Knoeller, Ken Hanh, Becky Gietzel

condor_status -direct name -schedd -statistics schedd:2

Ganglia Plugin


Day 2: Talks

Day 2 talk were focused on use cases of Condor at different institutions, research labs, and companies and their specific implementations for the same.

Session 1:

  • Brookhaven National Lab: Virtualization
  • UAB: Pilot
  • Syracuse university: Virtualized desktop grid (Condor VM coordinator, runs as non privileged user, distrust of 3rd party application i.e. Condor, uses a MS task scheduler)
  • RENCI: Condor in networked clouds (ORCA-Open Resource Control Architecture)

Session 2:

  • Redhat: Redhat and Condor Developer community (MRG- Messaging, realtime, grid)
  • The Hartford: GPU computing with Condor (250 M2070, two pools, Windows, ~7000 cores, actuarial, financial modelling, everything written in CUDA in-house, 40x-60x improvement)
  • Pacific Life: MoSes on Condor (actuarial, insurance statistics modelling, no GPU's yet, excess computing moved to Amazon EC2)
  • Aptina: Condor in a 24x7 manufacturing environment

Session 3:

  • UW-Madison: Deep Linguistic Processing with Condor (ad-hoc Map reduce cluster, daily crawl onto millions of webpages using condor, making logical relations)
  • U.S. Geologic Survey: Hydrological Modelling
  • UW-Madison: Machine design optimization
  • UW-Madison: JMAG and Condor(multiphysics)
  • OSMOSIX: Condor integrated Cloud bursting (brain imaging applications)

Session 4:

  • MIT: MW for mixed integer non -linear problems (Master worker, branch and bound, Coupe-COUenne Parallel Extensions)
  • Notre Dame: Compiling and linking workflows (Student of Dough Thain, working off Makeflow, Weaver,Abstraction: simple programming interface, hides details of distributed system, Workflows: exploit natural parallelism, large applications, abstractions DAG)
  • Information Sciences Institute: Pegasus for large workflows
  • Fermilab: GlideinWMS in the cloud
  • U.ChicagoL:Cloud based services
  • U.Of Buffalo: Stork-Cloud hosted data transfer optimization

Day 3: Talks

Session 1:

  • Fermilab: FermiCloud--Dynamic Resource Provisioning (High availability, Open Nebula-cloud 2.0 command line launch

Virtual machines distributed via SCP Typical VM: 1 Virtual CPu, HT, 2GB ram. Nagios, RSV based monitoring Gratia Accounting Reports)

  • U.Chicago: UC3-A Framework for Cooperative Computing
  • Argonne National Lab: BOSCO (campus grid, OSG 100 campuses

Bosco- connect to local cluster, condor pool, or OSG, or engage, CHTC etc..Download, untag, install, cluster_Add,, cluster_test. Beta testers needed )

  • Fermilab: OSG (background, resources, provisioning, opportunistic use, HTC in parallel)

Session 2:

  • Cycle Computing: Cycle computing (Condor or the cloud, 50000 core cluster, commercial use)
  • Morgridge Institute for Research: NGS (genome sequencing, interest in Galaxy)
  • Eli Lily: Condor and Eli Lily (use case)
  • Embraer: Condor at Embraer (use care, muultiphysics, additional scripts)

Session 3:

  • UCSD: CMS - move requirements out of users hands
  • Dreamworks: Condor at Dreamworks (Condor render farms, each film -5yrs, 65 Million CPU hours, 200TB data, 500+ million files)
  • Universitat Autonoma De Barcelona: Common programming mistakes (buffer Overflow, numeric error, Race conditions, Exceptions, Too much information, Directory Traversal, SQL injections, Command injection, Code Injection, Web attacks)
  • Newcastle University: Simulating Condor (modelling and simulations on Condor, energy saved, throughput etc )
  • Condor Project: Love Preemption

Session 4:

  • Purdue: BLAST and Bioinformatics on DiaGrid (use case)
  • U. Nebraska Lincoln: Putting Condor in a container (Cgroups, namespaces)
  • Cisco: Automated provisioning (Cisco UCS- Unified Computing system)
  • Condor Project: Use of Cisco UCS
  • Condor Project: What's new and Whats coming (v7.8, dynamic partition-able slots, statistics, IPv6, support SGE, Globus, resource management)


Day 4: Discussion Panels