HP XC System 3.x Software Logging in to HP XC System, Running an X terminal Session Using Slurm

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$ hostname

mymachine

Then, use the host name of your local machine to retrieve its IP address:

$ host mymachine

mymachine has address 14.26.206.134

Step 2. Logging in to HP XC System

Next, you need to log in to a login node on the HP XC system. For example:

$ ssh user@xc-node-name

Once logged in to the HP XC system, you can start an X terminal session using SLURM or LSF-HPC. Both methods are described in the following sections.

Step 3. Running an X terminal Session Using SLURM

This section shows how to create an X terminal session on a remote node using SLURM. First, examine the available nodes on the HP XC system. For example:

$ sinfo

PARTITION AVAIL TIMELIMIT NODES STATE NODELIST

lsf

up infinite

2

idle n[46,48]

According to the information returned about this HP XC system, SLURM has two nodes, n46 and n48, available for use.

Start an X terminal session on this node, using the information you obtained about your display server to direct output back to it. For example:

$ srun -N1 xterm -display 14.26.206.134:0.0

The options used in this command are:

srun -N1	run the job on 1 node
xterm	the job is an X terminal session
-display <address>	monitor's display server address

Once the job starts, an X terminal session appears on your desktop from the available remote HP XC node. You can verify that the X terminal session is running on a compute node with the hostname command. For example:

$ hostname

n47

You can verify that SLURM has allocated the job as you specified. For example:

$ sinfo
PARTITION AVAIL TIMELIMIT NODES				STATE NODELIST
lsf	up	infinite	2	idle n[46,48]
$ squeue
JOBID	PARTITION	NAME	USER	ST	TIME	NODES	NODELIST
135	srun	xterm	username	R	0:13	1	n47

Exiting from the X terminal session ends the SLURM job.

Step 4. Running an X terminal Session Using LSF-HPC

This section shows how to create an X terminal session on a remote node using LSF-HPC. In this example, suppose that you want to use LSF-HPC to reserve 4 cores (2 nodes) and start an X terminal session on one of them.

First, examine the available nodes on the HP XC system. For example:

$ sinfo

PARTITION AVAIL TIMELIMIT NODES STATE NODELIST

lsf

up infinite

2

idle n[46,48]

According to the information returned about this HP XC system, LSF-HPC has two nodes available for use, n46 and n48.

92 Advanced Topics

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Contents HP XC System Software Users Guide Page Table of Contents Submitting Jobs Configuring Your Environment with ModulefilesDeveloping Applications Tuning Applications Using SlurmUsing LSF Debugging ApplicationsGlossary 109 Index 115 Advanced TopicsExamples List of Figures Page List of Tables Determining the Node PlatformPage List of Examples Submitting a Job ScriptPage About This Document Intended AudienceDocument Organization This document is organized as followsHP XC Information Supplementary Information $ man lsfcommandnameFor More Information Related Information Manpages$ man discover $ man 8 discover $ man -k keywordRelated Linux Web Sites Related MPI Web SitesRelated Compiler Web Sites Additional PublicationsTypographic Conventions HP Encourages Your CommentsEnvironment Variable User inputOverview of the User Environment System ArchitectureHP XC System Software Operating SystemNode Specialization Storage and I/OFile System SAN StorageLocal Storage File System LayoutNetwork Address Translation NAT Determining System Configuration InformationSystem Interconnect Network Modules CommandsUser Environment Application Development Environment Run-Time EnvironmentParallel Applications Serial ApplicationsHow LSF-HPC and Slurm Interact Load Sharing Facility LSF-HPCStandard LSF Mpirun command Components, Tools, Compilers, Libraries, and DebuggersUsing the System LVS Login RoutingUsing the Secure Shell to Log Logging In to the SystemGetting Information About Resources IntroductionGetting Information About Queues Performing Other Common User Tasks Getting System Help and Information $ man sinfoConfiguring Your Environment with Modulefiles Overview of ModulesSupplied Modulefiles Modulefiles Automatically Loaded on the System Viewing Available ModulefilesViewing Loaded Modulefiles Loading a ModulefileAutomatically Loading a Modulefile at Login Unloading a ModulefileModulefile Conflicts Loading a Modulefile for the Current SessionCreating a Modulefile Viewing Modulefile-Specific Help$ module load modules $ man modulefile $ module help totalviewPage Compilers Developing ApplicationsApplication Development Environment Overview Examining Nodes and Partitions Before Running Jobs Interrupting a JobMPI Compiler Partition Avail Timelimit Nodes State NodelistSetting Debugging Options Developing Serial ApplicationsSerial Application Build Environment Building Serial ApplicationsDeveloping Parallel Applications Parallel Application Build EnvironmentModulefiles OpenMPPthreads Quadrics ShmemMPI Library Intel Fortran and C/C++CompilersBuilding Parallel Applications Examples of Compiling and Linking HP-MPI Applications Developing LibrariesDesigning Libraries for the CP4000 Platform To build a 64-bit application, you might enter Linkcommand 32-bit -L/opt/mypackage/lib/i686 -lmystuffLinkcommand 64-bit -L/opt/mypackage/lib/x8664 -lmystuff ExtSLURMslurm-arguments Submitting JobsOverview of Job Submission Submitting a Serial Job Using Standard LSF Submitting a Serial Job Using LSF-HPCSubmitting a Serial Job with the LSF bsub Command $ bsub hostnameSubmitting a Serial Job Through Slurm only Submitting a Non-MPI Parallel Job $ bsub -n4 -I srun hostnameBsub -nnum-procsbsub-optionsmpijob Mpirun mpirun--options-srunsrun-optionsmpi-jobnameBsub -nnum-procs bsub-optionsscript-name Submitting a Batch Job or Job Script$ bsub -n4 -I mpirun -srun ./helloworld $ cat myscript.sh #!/bin/sh Srun hostname mpirun -srun hellompi$ bsub -I -n4 Myscript.sh $ bsub -n4 -ext SLURMnodes=4 -I ./myscript.sh$ cat ./envscript.sh #!/bin/sh name=`hostname` Running Preexecution Programs$ bsub -n4 -I ./myscript.sh Opt/hptc/bin/srun Mypreexec Debugging Applications Debugging Serial ApplicationsDebugging Parallel Applications TotalViewSetting Up TotalView Using TotalView with SlurmSSH and TotalView Module load mpimodule load totalviewDebugging an Application Using TotalView with LSF-HPCSetting TotalView Preferences Sourcefile initfdte.f was not found, using assembler mode Debugging Running ApplicationsDirectories in File ⇒ Search Path $ mpirun -srun -n2 Psimple$ squeue $ scancel --user usernameExiting TotalView Page Building a Program Intel Trace Collector and HP-MPI Tuning ApplicationsUsing the Intel Trace Collector and Intel Trace Analyzer Running a Program Intel Trace Collector and HP-MPI Visualizing Data Intel Trace Analyzer and HP-MPILibs CldflagsUsing the Intel Trace Collector and Intel Trace Analyzer Page Using Slurm Launching Jobs with the srun CommandSrun Squeue Scancel Sinfo Scontrol Introduction to SlurmMonitoring Jobs with the squeue Command Using the srun Command with HP-MPIUsing the srun Command with LSF-HPC Srun Roles and ModesJob Accounting Terminating Jobs with the scancel CommandGetting System Information with the sinfo Command # chmod a+r /hptccluster/slurm/job/jobacct.log Fault ToleranceSecurity Using LSF-HPC Using LSFUsing Standard LSF on an HP XC System Introduction to LSF-HPC in the HP XC Environment Overview of LSF-HPCDifferences Between LSF-HPC and Standard LSF HostnameResources Hostname Status JL/U MAX Njobs RUN Ssusp Ususp RSVUnknown Unknown Job Terminology$ ssh n15 lshosts HP XCCompute Node Resource Support SLURMnodelist =nodelist if specified$ bsub -n 10 -I srun hostname $ bsub -n 10 -ext SLURMnodes=10 -I srun hostname$ bsub -n 10 -ext SLURMnodes=10exclude=n16 -I srun hostname $ bsub -n 10 -ext SLURMconstraint=dualcore -I srun hostnameHow LSF-HPC and Slurm Launch and Manage a Job $ bsub -n4 -ext SLURMnodes=4 -o output.out ./myscriptJob Startup and Job Control #!/bin/sh hostname srun hostname Mpirun -srun ./hellompiDetermining the LSF Execution Host Determining Available LSF-HPC System ResourcesGetting the Status of LSF-HPC Getting Information About LSF Execution Host NodeGetting Host Load Information Examining LSF-HPC System QueuesGetting Information About the lsf Partition SLINUX6$ sinfo -p lsf -lNe Summary of the LSF bsub Command Format$ sinfo -p lsf LSF-SLURM External Scheduler For information about running scriptsBsub -n num-procs-ext SLURMslurm-arguments \ Bsub-options srun srun-optionsjobname job-optionsSubmitting a Job from a Non-HP XC Host Starting on lsfhost.localdomain n6Waiting for dispatch ... Starting on lsfhost.localdomain n1 Type=SLINUX64Getting Information About Jobs Getting Job Allocation InformationSlurmid=slurmjobidncpus=slurmnprocsslurmalloc=nodelist $ bjobs -lExamining the Status of a Job $ bhist -lTime stamp $ bjobsViewing the Historical Information for a Job $ bhistSummary of time in seconds spent Various States Jobid User Jobname Pend Psusp RUN Ususp Ssusp Unkwn TotalTranslating Slurm and LSF-HPC JOBIDs Working Interactively Within an LSF-HPC Allocation $ bsub -I -n4 -ext SLURMnodes=4 /bin/bash$ bjobs -l 124 grep slurm $ srun --jobid=150 hostname$ unset Slurmjobid Alternatively, you can use the following$ export SLURMJOBID=150 $ export SLURMNPROCS=4 $ unset Slurmjobid $ unset SlurmnprocsJob 125 is submitted to the default queue normal LSF-HPC Equivalents of Slurm srun Options$ srun --jobid=250 uptime $ bsub -n4 -ext SLURMnodes=4 -o %J.out sleepBsub -iinputfile Mpi=mpitype Quit-on-interrupt Page Advanced Topics Enabling Remote Execution with OpenSSHRunning an X Terminal Session from a Remote Node Determining IP Address of Your Local MachineLogging in to HP XC System Running an X terminal Session Using SlurmRunning an X terminal Session Using LSF-HPC Using the GNU Parallel Make Capability $ bsub -n4 -Ip srun -n1 xterm -display$ srun -n4 hostname n46 $ srun -n2 hostname n46$ cd subdir srun -n1 -N1 $MAKE -j4 Example Procedure $ make PREFIX=’srun -n1 -N1 MAKEJ=-j4Local Disks on Compute Nodes Performance ConsiderationsModified Makefile is invoked as follows $ make PREFIX=srun -n1 -N1 MAKEJ=-j4Communication Between Nodes Shared File ViewPrivate File View Fp = fopen myfile, a+Page Appendix a Examples Building and Running a Serial ApplicationLaunching a Serial Interactive Shell Through LSF-HPC Examine the LSF execution host informationRunning LSF-HPC Jobs with a Slurm Allocation Request Launching a Parallel Interactive Shell Through LSF-HPC Example 2. Four cores on Two Specific NodesR15s r1m r15m It tmp swp mem LoadSched LoadStop SLURMnodes=2124 Lsfad Examine the the running jobs information$ hostname n16 $ srun hostname n5 $ bjobs Submitting a Simple Job Script with LSF-HPC Examine the the finished jobs informationShow the environment Display the scriptRun some commands from the pseudo-terminal Submitting an Interactive Job with LSF-HPCSubmit the job Show the job allocationSubmitting an HP-MPI Job with LSF-HPC Exit the pseudo-terminalView the interactive jobs View the finished jobsLsfhost.localdomai View the running jobView the finished job $ bsub -n 8 -R ALPHA5 SLINUX64 \ -ext SLURMnodes=4-4 myjob Using a Resource Requirements String in an LSF-HPC CommandStates by date and time 108 Glossary To the queue First-come See Fcfs First-served Global storageAs local storage Are not appropriate for replicationSingle command Login requests and directs them to a node with a login roleLinux Virtual See LVS Server Load file LSF master hostNetwork See NIS Information Services Remotely. PXE booting is configured at the Bios levelNotably to install and remove software packages Slurm backupSymmetric See SMP Multiprocessing Power available per unit of spaceSsh 114 Index Index PGI Utilities, 63 Slurm commands