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1 http://www.cs.wisc.edu/condor Using Condor An Introduction ICE 2010
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2 http://www.cs.wisc.edu/condor The Condor Project (Established ‘85) Distributed High Throughput Computing research performed by a team of ~35 faculty, full time staff and students.
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3 http://www.cs.wisc.edu/condor Definitions › Job The Condor representation of your work › Machine The Condor representation of computers and that can perform the work › Match Making Matching a job with a machine “Resource”
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4 http://www.cs.wisc.edu/condor Job Jobs state their requirements and preferences: I need a Linux/x86 platform I need the machine at least 500 Mb I prefer a machine with more memory
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5 http://www.cs.wisc.edu/condor Machine Machines state their requirements and preferences: Run jobs only when there is no keyboard activity I prefer to run Frieda’s jobs I am a machine in the econ department Never run jobs belonging to Dr. Smith
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6 http://www.cs.wisc.edu/condor The Magic of Matchmaking › Jobs and machines state their requirements and preferences › Condor matches jobs with machines based on requirements and preferences
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7 http://www.cs.wisc.edu/condor Getting Started: Submitting Jobs to Condor › Overview: Choose a “Universe” for your job Make your job “batch-ready” Create a submit description file Run condor_submit to put your job in the queue
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8 http://www.cs.wisc.edu/condor 1. Choose the “Universe” › Controls how Condor handles jobs › Choices include: Vanilla Standard Grid Java Parallel VM
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9 http://www.cs.wisc.edu/condor Using the Vanilla Universe The Vanilla Universe: – Allows running almost any “serial” job – Provides automatic file transfer, etc. – Like vanilla ice cream Can be used in just about any situation
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10 http://www.cs.wisc.edu/condor 2. Make your job batch- ready Must be able to run in the background No interactive input No GUI/window clicks No music ;^)
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11 http://www.cs.wisc.edu/condor Make your job batch-ready (continued)… Job can still use STDIN, STDOUT, and STDERR (the keyboard and the screen), but files are used for these instead of the actual devices Similar to UNIX shell: $./myprogram output.txt
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12 http://www.cs.wisc.edu/condor 3. Create a Submit Description File › A plain ASCII text file › Condor does not care about file extensions › Tells Condor about your job: Which executable, universe, input, output and error files to use, command-line arguments, environment variables, any special requirements or preferences (more on this later) › Can describe many jobs at once (a “cluster”), each with different input, arguments, output, etc.
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13 http://www.cs.wisc.edu/condor Simple Submit Description File # Simple condor_submit input file # (Lines beginning with # are comments) # NOTE: the words on the left side are not # case sensitive, but filenames are! Universe = vanilla Executable = my_job Output = output.txt Queue
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14 http://www.cs.wisc.edu/condor 4. Run condor_submit › You give condor_submit the name of the submit file you have created: condor_submit my_job.submit › condor_submit: Parses the submit file, checks for errors Creates a “ClassAd” that describes your job(s) Puts job(s) in the Job Queue
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15 http://www.cs.wisc.edu/condor The Job Queue › condor_submit sends your job’s ClassAd(s) to the schedd › The schedd (more details later): Manages the local job queue Stores the job in the job queue Atomic operation, two-phase commit “Like money in the bank” › View the queue with condor_q
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16 http://www.cs.wisc.edu/condor Example condor_submit and condor_q % condor_submit my_job.submit Submitting job(s). 1 job(s) submitted to cluster 1. % condor_q -- Submitter: perdita.cs.wisc.edu : : ID OWNER SUBMITTED RUN_TIME ST PRI SIZE CMD 1.0 frieda 6/16 06:52 0+00:00:00 I 0 0.0 my_job 1 jobs; 1 idle, 0 running, 0 held %
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17 http://www.cs.wisc.edu/condor Input, output & error files › Controlled by submit file settings › You can define the job’s standard input, standard output and standard error: Read job’s standard input from “input_file”: Input= input_file Shell equivalent: program <input_file Write job’s standard ouput to “output_file”: Output= output_file Shell equivalent: program >output_file Write job’s standard error to “error_file”: Error= error_file Shell equivalent: program 2>error_file
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18 http://www.cs.wisc.edu/condor Email about your job Condor sends email about job events to the submitting user Specify “notification” in your submit file to control which events: Notification= complete Notification= never Notification= error Notification= always Default
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19 http://www.cs.wisc.edu/condor Feedback on your job › Create a log of job events › Add to submit description file: log = sim.log › Becomes the Life Story of a Job Shows all events in the life of a job Always have a log file
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20 http://www.cs.wisc.edu/condor Sample Condor User Log 000 (0001.000.000) 05/25 19:10:03 Job submitted from host:... 001 (0001.000.000) 05/25 19:12:17 Job executing on host:... 005 (0001.000.000) 05/25 19:13:06 Job terminated. (1) Normal termination (return value 0)...
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21 http://www.cs.wisc.edu/condor Example Submit Description File With Logging # Example condor_submit input file # (Lines beginning with # are comments) # NOTE: the words on the left side are not # case sensitive, but filenames are! Universe = vanilla Executable = /home/frieda/condor/my_job.condor Log = my_job.log ·Job log (from Condor) Input = my_job.in ·Program’s standard input Output = my_job.out ·Program’s standard output Error = my_job.err ·Program’s standard error Arguments = -a1 -a2 ·Command line arguments InitialDir = /home/frieda/condor/run Queue
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22 http://www.cs.wisc.edu/condor Let’s run a job › First, need a terminal emulator http://www.putty.org http://www.putty.org (or similar) › Login to chopin.cs.wisc.edu as cguserXX, and the given password
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23 http://www.cs.wisc.edu/condor Logged In? › condor_q › condor_status
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24 http://www.cs.wisc.edu/condor Create submit file › nano submit.your_initials universe = vanilla executable = /bin/echo Arguments = hello world Output = out Log = log queue
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25 http://www.cs.wisc.edu/condor And submit it… › condor_submit submit.your_initials › (wait… remember the HTC bit?) › Condor_q xx › cat output
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26 http://www.cs.wisc.edu/condor “Clusters” and “Processes” › If your submit file describes multiple jobs, we call this a “cluster” › Each cluster has a unique “cluster number” › Each job in a cluster is called a “process” Process numbers always start at zero › A Condor “Job ID” is the cluster number, a period, and the process number (i.e. 2.1) A cluster can have a single process Job ID = 20.0 ·Cluster 20, process 0 Or, a cluster can have more than one process Job ID: 21.0, 21.1, 21.2·Cluster 21, process 0, 1, 2
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27 http://www.cs.wisc.edu/condor Submit File for a Cluster # Example submit file for a cluster of 2 jobs # with separate input, output, error and log files Universe = vanilla Executable = my_job Arguments = -x 0 log = my_job_0.log Input = my_job_0.in Output = my_job_0.out Error = my_job_0.err Queue ·Job 2.0 (cluster 2, process 0) Arguments = -x 1 log = my_job_1.log Input = my_job_1.in Output = my_job_1.out Error = my_job_1.err Queue ·Job 2.1 (cluster 2, process 1)
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28 http://www.cs.wisc.edu/condor % condor_submit my_job.submit-file Submitting job(s). 2 job(s) submitted to cluster 2. % condor_q -- Submitter: perdita.cs.wisc.edu : : ID OWNER SUBMITTED RUN_TIME ST PRI SIZE CMD 1.0 frieda 4/15 06:52 0+00:02:11 R 0 0.0 my_job –a1 –a2 2.0 frieda 4/15 06:56 0+00:00:00 I 0 0.0 my_job –x 0 2.1 frieda 4/15 06:56 0+00:00:00 I 0 0.0 my_job –x 1 3 jobs; 2 idle, 1 running, 0 held % Submitting The Job
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29 http://www.cs.wisc.edu/condor Organize your files and directories for big runs › Create subdirectories for each “run” run_0, run_1, … run_599 › Create input files in each of these run_0/simulation.in run_1/simulation.in … run_599/simulation.in › The output, error & log files for each job will be created by Condor from your job’s output
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30 http://www.cs.wisc.edu/condor Submit Description File for 600 Jobs # Cluster of 600 jobs with different directories Universe = vanilla Executable = sim Log = simulation.log... Arguments = -x 0 InitialDir = run_0 ·Log, input, output & error files -> run_0 Queue ·Job 3.0 (Cluster 3, Process 0) Arguments = -x 1 InitialDir = run_1 ·Log, input, output & error files -> run_1 Queue ·Job 3.1 (Cluster 3, Process 1) ·Do this 598 more times…………
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31 http://www.cs.wisc.edu/condor Submit File for a Big Cluster of Jobs › We just submitted 1 cluster with 600 processes › All the input/output files will be in different directories › The submit file is pretty unwieldy (over 1200 lines) › Isn’t there a better way?
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32 http://www.cs.wisc.edu/condor Submit File for a Big Cluster of Jobs (the better way) #1 › We can queue all 600 in 1 “Queue” command Queue 600 › Condor provides $(Process) and $(Cluster) $(Process) will be expanded to the process number for each job in the cluster 0, 1, … 599 $(Cluster) will be expanded to the cluster number Will be 4 for all jobs in this cluster
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33 http://www.cs.wisc.edu/condor Submit File for a Big Cluster of Jobs (the better way) #2 › The initial directory for each job can be specified using $(Process) InitialDir = run_$(Process) Condor will expand these to “ run_0 ”, “ run_1 ”, … “ run_599 ” directories › Similarly, arguments can be variable Arguments = -x $(Process) Condor will expand these to “-x 0”, “-x 1”, … “-x 599”
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34 http://www.cs.wisc.edu/condor Better Submit File for 600 Jobs # Example condor_submit input file that defines # a cluster of 600 jobs with different directories Universe = vanilla Executable = my_job Log = my_job.log Input = my_job.in Output = my_job.out Error = my_job.err Arguments = –x $(Process) ·–x 0, -x 1, … -x 599 InitialDir = run_$(Process) ·run_0 … run_599 Queue 600 ·Jobs 4.0 … 4.599
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35 http://www.cs.wisc.edu/condor Now, we submit it… $ condor_submit my_job.submit Submitting job(s)............................................................................................................................................................................................................................................................... Logging submit event(s)............................................................................................................................................................................................................................................................... 600 job(s) submitted to cluster 4.
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36 http://www.cs.wisc.edu/condor And, Check the queue $ condor_q -- Submitter: x.cs.wisc.edu : : x.cs.wisc.edu ID OWNER SUBMITTED RUN_TIME ST PRI SIZE CMD 4.0 frieda 4/20 12:08 0+00:00:05 R 0 9.8 my_job -arg1 –x 0 4.1 frieda 4/20 12:08 0+00:00:03 I 0 9.8 my_job -arg1 –x 1 4.2 frieda 4/20 12:08 0+00:00:01 I 0 9.8 my_job -arg1 –x 2 4.3 frieda 4/20 12:08 0+00:00:00 I 0 9.8 my_job -arg1 –x 3... 4.598 frieda 4/20 12:08 0+00:00:00 I 0 9.8 my_job -arg1 –x 598 4.599 frieda 4/20 12:08 0+00:00:00 I 0 9.8 my_job -arg1 –x 599 600 jobs; 599 idle, 1 running, 0 held
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37 http://www.cs.wisc.edu/condor Removing jobs › If you want to remove a job from the Condor queue, you use condor_rm › You can only remove jobs that you own › Privileged user can remove any jobs “root” on UNIX “administrator” on Windows
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38 http://www.cs.wisc.edu/condor Removing jobs (continued) › Remove an entire cluster: condor_rm 4 ·Removes the whole cluster › Remove a specific job from a cluster: condor_rm 4.0 ·Removes a single job › Or, remove all of your jobs with “-a” condor_rm -a ·Removes all jobs / clusters
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39 http://www.cs.wisc.edu/condor Submit cluster of 10 jobs › nano submit universe = vanilla executable = /bin/echo Arguments = hello world $(PROCESS) Output = out.$(PROCESS) Log = log Queue 10
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40 http://www.cs.wisc.edu/condor And submit it… › condor_submit submit › (wait…) › Condor_q xx › cat log › cat output.yy
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41 http://www.cs.wisc.edu/condor My new jobs run for 20 days… › What happens when a job is forced off it’s CPU? Preempted by higher priority user or job Vacated because of user activity › How can I add fault tolerance to my jobs?
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42 http://www.cs.wisc.edu/condor Condor’s Standard Universe to the rescue! › Support for transparent process checkpoint and restart › Remote system calls (remote I/O) Your job can read / write files as if they were local
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43 http://www.cs.wisc.edu/condor Remote System Calls in the Standard Universe › I/O system calls are trapped and sent back to the submit machine Examples: open a file, write to a file › No source code changes typically required › Programming language independent
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44 http://www.cs.wisc.edu/condor Process Checkpointing in the Standard Universe › Condor’s process checkpointing provides a mechanism to automatically save the state of a job › The process can then be restarted from right where it was checkpointed After preemption, crash, etc.
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45 http://www.cs.wisc.edu/condor Checkpointing: Process Starts checkpoint: the entire state of a program, saved in a file CPU registers, memory image, I/O time
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46 http://www.cs.wisc.edu/condor Checkpointing: Process Checkpointed time 123
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47 http://www.cs.wisc.edu/condor Checkpointing: Process Killed time 3 3 Killed!
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48 http://www.cs.wisc.edu/condor Checkpointing: Process Resumed time 3 3 goodputbadput goodput
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49 http://www.cs.wisc.edu/condor When will Condor checkpoint your job? › Periodically, if desired For fault tolerance › When your job is preempted by a higher priority job › When your job is vacated because the execution machine becomes busy › When you explicitly run condor_checkpoint, condor_vacate, condor_off or condor_restart command
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50 http://www.cs.wisc.edu/condor Making the Standard Universe Work › The job must be relinked with Condor’s standard universe support library › To relink, place condor_compile in front of the command used to link the job: % condor_compile gcc -o myjob myjob.c - OR - % condor_compile f77 -o myjob filea.f fileb.f - OR - % condor_compile make –f MyMakefile
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51 http://www.cs.wisc.edu/condor Limitations of the Standard Universe › Condor’s checkpointing is not at the kernel level. Standard Universe the job may not: Fork() Use kernel threads Use some forms of IPC, such as pipes and shared memory › Must have access to source code to relink › Many typical scientific jobs are OK
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52 http://www.cs.wisc.edu/condor Submitting Std uni job › #include › int main(int argc, char **argv) { › int i; for(i = 0 ; i < 10000000; i++) { } › }
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53 http://www.cs.wisc.edu/condor And submit… › condor_compile gcc –o foo foo.c -- Change "vanilla" to "standard" -- Change "/bin/echo" to "foo" (or above)
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54 http://www.cs.wisc.edu/condor My jobs have have dependencies… Can Condor help solve my dependency problems?
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55 http://www.cs.wisc.edu/condor Condor Universes: Scheduler and Local › Scheduler Universe Plug in a meta-scheduler Developed for DAGMan (more later) Similar to Globus’s fork job manager › Local Very similar to vanilla, but jobs run on the local host Has more control over jobs than scheduler universe
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56 http://www.cs.wisc.edu/condor DAGMan › Directed Acyclic Graph Manager › DAGMan allows you to specify the dependencies between your Condor jobs, so it can manage them automatically for you. › (e.g., “Don’t run job “B” until job “A” has completed successfully.”)
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57 http://www.cs.wisc.edu/condor What is a DAG? › A DAG is the data structure used by DAGMan to represent these dependencies. › Each job is a “node” in the DAG. › Each node can have any number of “parent” or “children” nodes – as long as there are no loops! Job A Job B Job C Job D
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58 http://www.cs.wisc.edu/condor Defining a DAG › A DAG is defined by a.dag file, listing each of its nodes and their dependencies: # diamond.dag Job A a.sub Job B b.sub Job C c.sub Job D d.sub Parent A Child B C Parent B C Child D › each node will run the Condor job specified by its accompanying Condor submit file Job A Job BJob C Job D
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59 http://www.cs.wisc.edu/condor Submitting a DAG › To start your DAG, just run condor_submit_dag with your.dag file, and Condor will start a personal DAGMan daemon which to begin running your jobs: % condor_submit_dag diamond.dag › condor_submit_dag is run by the schedd DAGMan daemon itself is “watched” by Condor, so you don’t have to
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60 http://www.cs.wisc.edu/condor DAGMan Running a DAG › DAGMan acts as a “meta-scheduler”, managing the submission of your jobs to Condor based on the DAG dependencies. Condor Job Queue B C D A A.dag File
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61 http://www.cs.wisc.edu/condor DAGMan Running a DAG (cont’d) › DAGMan holds & submits jobs to the Condor queue at the appropriate times. Condor Job Queue D B C B A C
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62 http://www.cs.wisc.edu/condor Running a DAG (cont’d) › In case of a job failure, DAGMan continues until it can no longer make progress, and then creates a “rescue” file with the current state of the DAG. Condor Job Queue DAGMan X D A B Rescue File
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63 http://www.cs.wisc.edu/condor Recovering a DAG › Once the failed job is ready to be re-run, the rescue file can be used to restore the prior state of the DAG. Condor Job Queue Rescue File C DAGMan D A B C
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64 http://www.cs.wisc.edu/condor DAGMan Recovering a DAG (cont’d) › Once that job completes, DAGMan will continue the DAG as if the failure never happened. Condor Job Queue C D A B D
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65 http://www.cs.wisc.edu/condor DAGMan Finishing a DAG › Once the DAG is complete, the DAGMan job itself is finished, and exits. Condor Job Queue C D A B
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66 http://www.cs.wisc.edu/condor Additional DAGMan Features › Provides other handy features for job management… nodes can have PRE & POST scripts failed nodes can be automatically re- tried a configurable number of times job submission can be “throttled”
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67 http://www.cs.wisc.edu/condor What about Licensed Jobs? › e.g. matlab Site license? matlab compiler Octave
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68 http://www.cs.wisc.edu/condor Chirp › condor_chirp get_file remote local › condor_chirp put_file local remote
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69 http://www.cs.wisc.edu/condor General User Commands › condor_status View Pool Status › condor_qView Job Queue › condor_submitSubmit new Jobs › condor_rmRemove Jobs › condor_prioIntra-User Prios › condor_historyCompleted Job Info › condor_submit_dagSubmit new DAG › condor_checkpointForce a checkpoint › condor_compileLink Condor library
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70 http://www.cs.wisc.edu/condor Statistical Bootstrap › Build up from the worker side out › The matlab/octave worker: › worker.m: #!/s/octave/bin/octave -q load "subset" subset; subset = subset(floor(rand(10,1).* 1000)); printf("%f ", mean(subset));
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71 http://www.cs.wisc.edu/condor Run the worker alone › (won’t work – why?) ›./worker.m
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72 http://www.cs.wisc.edu/condor Submit file universe = vanilla executable = worker.m should_transfer_files = true when_to_transfer_output = on_exit transfer_input_files = subset output = mean.$(PROCESS) error = foo log = log queue 10
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73 http://www.cs.wisc.edu/condor Create the initial data driver.m #!/s/octave/bin/octave –q dist_size = 100000; d = rand(dist_size, 1).* 500; subset = d(floor(rand(1000,1).* 100000)); save "subset" subset;
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74 http://www.cs.wisc.edu/condor And submit the job… › condor_submit submit
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75 http://www.cs.wisc.edu/condor Add the submission to the driver script… #!/s/octave/bin/octave –q dist_size = 100000; d = rand(dist_size, 1).* 500; subset = d(floor(rand(1000,1).* 100000)); save "subset" subset; system("condor_submit submit"); system("condor_wait log");
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76 http://www.cs.wisc.edu/condor And run the driver! ›./driver.m
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77 http://www.cs.wisc.edu/condor Parallel convergence checking: Another DAGman example › Evaluating a function at many points › Check for convergence -> retry › Particle Swarm Optimization
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78 http://www.cs.wisc.edu/condor Prepare Compute Converge? Done Yes! No
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79 http://www.cs.wisc.edu/condor Any Guesses? › Who has thoughts? › Best to work from “inside out” 79
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80 http://www.cs.wisc.edu/condor The job itself. #!/bin/sh ###### random.sh echo $RANDOM exit 0 80
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81 http://www.cs.wisc.edu/condor The submit file › Any guesses? 81
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82 http://www.cs.wisc.edu/condor The submit file # submitRandom universe = vanilla executable = random.sh Should_transfer_files = yes When_to_transfer_output = on_exit output = out log = log queue 82
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83 http://www.cs.wisc.edu/condor Next step: the inner DAG 83 First Last Node Node0 Node1Node2Node3Node4 Node11
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84 http://www.cs.wisc.edu/condor The DAG file › Any guesses? 84
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85 http://www.cs.wisc.edu/condor The inner DAG file Job Node0 submitRandom Job Node1 submitRandom Job Node2 submitRandom Job Node3 submitRandom PARENT Node0 CHILD Node1 PARENT Node0 CHILD Node2 PARENT Node0 CHILD Node3 Job Node11 submitRandom PARENT Node1, Node2, Node3 CHILD Node11 85
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86 http://www.cs.wisc.edu/condor Inner DAG › Does this work? › At least one iteration? 86
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87 http://www.cs.wisc.edu/condor How to iterate › DAGman has simple control structures (Makes it reliable) › SUBDAGs! › Remember what happens if post fails? 87
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88 http://www.cs.wisc.edu/condor The Outer Dag › Another Degenerate Dag (But Useful!) 88 Post Script (with exit value) SubDag (with retry) t
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89 http://www.cs.wisc.edu/condor This one is easy! › Can you do it yourself? 89
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90 http://www.cs.wisc.edu/condor The outer DAG file ####### Outer.dag ############# SUBDAG EXTERNAL A inner.dag SCRIPT POST A converge.sh RETRY A 10 #### converge.sh could look like #!/bin/sh echo "Checking convergence" >> converge exit 1 90
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91 http://www.cs.wisc.edu/condor Let’s run that… › condor_submit_dag outer.dag › Does it work? How can you tell? 91
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92 http://www.cs.wisc.edu/condor DAGman a bit verbose… $ condor_submit_dag outer.dag ----------------------------------------------------------------------- File for submitting this DAG to Condor : submit.dag.condor.sub Log of DAGMan debugging messages : submit.dag.dagman.out Log of Condor library output : submit.dag.lib.out Log of Condor library error messages : submit.dag.lib.err Log of the life of condor_dagman itself : submit.dag.dagman.log -no_submit given, not submitting DAG to Condor. You can do this with: "condor_submit submit.dag.condor.sub" ----------------------------------------------------------------------- File for submitting this DAG to Condor : outer.dag.condor.sub Log of DAGMan debugging messages : outer.dag.dagman.out Log of Condor library output : outer.dag.lib.out Log of Condor library error messages : outer.dag.lib.err Log of the life of condor_dagman itself : outer.dag.dagman.log Submitting job(s). Logging submit event(s). 1 job(s) submitted to cluster 721. ----------------------------------------------------------------------- 92
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93 http://www.cs.wisc.edu/condor Debugging helps › Look in the user log file, “log” › Look in the DAGman debugging log › “foo”.dagman.out 93
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94 http://www.cs.wisc.edu/condor What does converge.sh need › Note the output files? › How to make them unique? › Add DAG variables to inner dag And submitRandom file 94
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95 http://www.cs.wisc.edu/condor The submit file (again) # submitRandom universe = vanilla executable = random.sh output = out log = log queue 95
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96 http://www.cs.wisc.edu/condor The submit file # submitRandom universe = vanilla executable = random.sh output = out.$(NodeNumber) log = log queue 96
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97 http://www.cs.wisc.edu/condor The inner DAG file (again) Job Node0 submit_pre Job Node1 submitRandom Job Node2 submitRandom Job Node3 submitRandom PARENT Node0 CHILD Node1 PARENT Node0 CHILD Node2 PARENT Node0 CHILD Node3 Job Node11 submit_post PARENT Node1 CHILD Node11 PARENT Node2 CHILD Node11 PARENT Node3 CHILD Node11 97
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98 http://www.cs.wisc.edu/condor The inner DAG file (again) Job Node0 submit_pre Job Node1 submitRandom Job Node2 submitRandom Job Node3 submitRandom … VARS Node1 NodeNumber=“1” VARS Node2 NodeNumber=“2” VARS Node3 NodeNumber=“3” … 98
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99 http://www.cs.wisc.edu/condor Then converge.sh sees: $ ls out.* out.1 out.10 out.2 out.3 out.4 out.5 out.6 out.7 out.8 out.9 $ › And can act accordingly… 99
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100 http://www.cs.wisc.edu/condor Thank you! Check us out on the Web: http://www.condorproject.org Email: condor-admin@cs.wisc.edu
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