Difference between revisions of "Getting Started"

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[[Category:Basics]]
 
{|align=right
 
{|align=right
 
   |__TOC__
 
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   |}
 
   |}
==Getting an account==
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Welcome to UF Research Computing! This page is intended to help new users understand and use UFRC resources. Be sure to check out [https://wiki.rc.ufl.edu/doc/Training our training schedule] if you'd like help getting started in person!
To get an account at the UF HPC Center, you need to read the UF HPC Center [http://www.hpc.ufl.edu/users/accounts.php Policies] and then put a request in at our request page. That page is [http://www.hpc.ufl.edu/support/acctrqst/ located here].
+
=Getting onto HiPerGator=
 +
a.k.a ''From Zero to HiPerGator''
  
==Connect==
+
There are many approaches and resources a researcher can use to analyze their data. Some analyses can be performed on a laptop or a desktop in the lab. Some analyses that rely on proprietary technologies can be done at least partially with resources and applications provided by the vendor. Some researchers are able to 'game' the cloud spot instance market to find relatively cheap resources to perform their analyses on commercial computational resources and are able to install, manage, and use all applications and workflows they need on their own. However, study after study shows that local HPC resources subsidized by the institution still provide the best cost and level of service to academic researchers. At the University of Florida researchers have access to the best of both worlds - low cost resources and top-notch systems, application, and research facilitation support.
===Linux / Unix===
+
 
 +
Once analyses move beyond what an individual computer can handle and a UF research group decides to seek additional computational resources the process usually starts from the following steps:
 +
* If a face-to-face discussion about the group's needs is needed one of the group's members or the group's sponsor (usually a UF faculty member) can [https://www.rc.ufl.edu/get-support/walk-in-support/ meet one of the UF Research Computing Facilitators] or [https://support.rc.ufl.edu/ submit a support request to start the conversation].
 +
* Once a decision is made to try HiPerGator group members should [https://www.rc.ufl.edu/access/account-request/ submit HiPerGator account requests] at which point a group and an account for the group's Faculty or Staff sponsor will be created.
 +
* Group's sponsor (usually a UF faculty member) should [https://www.rc.ufl.edu/access/request-trial-allocation//  request a trial allocation] on HiPerGator.
 +
* Group members can now use HiPerGator for 3 months. They should [https://support.rc.ufl.edu/ submit support requests] if a new application or help with an error is needed or there is a question about applications, workflows, scheduler usage or anything else related to HiPerGator. Note that there are [[Applications|over a thousand installed applications]] on HiPerGator already. See below on how to use environment modules to search for and enable them.
 +
* Once the trial is over and the group has a rough idea of what computational and storage resources it needs the group's sponsor should submit a purchase request for [https://www.rc.ufl.edu/services/rates/hardware/ hardware (5-years)] or [https://www.rc.ufl.edu/access/purchase-request/ services (variable duration)] to invest into the resources the group needs. Some groups may have access to shared departmental allocations in which case group members should [https://support.rc.ufl.edu/ submit support requests] to be added to the appropriate account. Some examples of departments with shared allocations include the [http://ufgi.ufl.edu/ Genetics Institute], [http://epi.ufl.edu/ Emerging Pathogens Institute], [https://stat.ufl.edu/ Statistics Department], [http://biostat.ufl.edu/ Biostatistics Department], [https://www.eng.ufl.edu/ccmt/ Center for Compressible Multiphase Turbulence (CCMT)], [https://chp.phhp.ufl.edu/research/affiliated-centers/center-for-cognitive-aging-memory-cam/ Cognitive Aging and Memory Clinical Translational Research Program (CAMCTRP)], [https://efrc.ufl.edu/ Center for Molecular Magnetic Quantum Materials], [https://www.phys.ufl.edu/ Physics Department], and [https://plantpath.ifas.ufl.edu/ Plant Pathology Department]. In addition, several research groups working on collaborative projects have shared allocations accessible to members of those projects.
 +
 
 +
;Note<nowiki>:</nowiki> a computational allocation is mandatory! No analyses can be run on HiPerGator without a computational allocation.
 +
 
 +
==Creating an Account==
 +
To be able to do ''anything'' on HiPerGator you need a UF Research Computing account. To create an account with UF Research Computing, you must read the [https://www.rc.ufl.edu/documentation/procedures/ UFRC Account Policy]. After you have reviewed the policy, go to [https://www.rc.ufl.edu/access/account-request/ our website to submit an account request]. You will have to tell us the name of the Principal Investigator (PI) who sponsors the access of the group. Once the PI approves your access to their allocation your account will be created; the username and password will be the same as your GatorLink username and password. '''Note:''' [[New user training|New User Training]] is now required for all new accounts. You must pass the quiz at the end of the training.
 +
 
 +
If you are a new Principal Investigator you will need to indicate this on the request form, so that we can create a new group for you. Please note that to do useful work, your group will have to [https://www.rc.ufl.edu/services/rates/ invest into computational resources], or you will have to join a departmental group with a shared allocation.
 +
 
 +
=Introduction to HiPerGator Usage=
 +
 
 +
Once you have an account, see the short [[Quick Start Guide]] for hints on getting going and avoiding common pitfalls.
 +
 
 +
==Connecting to HiPerGator==
 +
To work on HiPerGator you will have to connect to it from your local computer either via SSH (terminal session) or via one of the web/application interfaces we provide such as [[Galaxy]] or Matlab (for Matlab distributed computing toolbox pilot project we are testing).
 +
 
 +
''Note about using this guide:'' for any given command, <code><username></code> should be replaced with the UFRC username (same as your GatorLink username).
 +
 
 +
For example, if you are referencing the command <code>ssh <username>@hpg.rc.ufl.edu</code> and your Gatorlink username is '''smith''', you would use the command:
 +
<pre style="width:75%;">ssh smith@hpg.rc.ufl.edu</pre>
 +
 
 +
===Connecting from Windows===
 +
<div class="mw-collapsible mw-collapsed" style="width:70%; padding: 5px; border: 1px solid gray;">
 +
''Expand this section to view instructions for logging in with Windows.''
 +
<div class="mw-collapsible-content" style="padding: 5px;">
 +
Since Microsoft Windows does not come with a built-in SSH client, you must download a client from the web.
 +
 
 +
For University-managed computers [http://www.chiark.greenend.org.uk/~sgtatham/putty PuTTY], [https://tabby.sh/ Tabby], and [https://gitforwindows.org/ Git Bash] are approved for 'fast track' installations.
 +
 
 +
'''PuTTY'''
 +
* [http://www.chiark.greenend.org.uk/~sgtatham/putty Download PuTTY] to your local machine and start the program.
 +
* Connect to hpg.rc.ufl.edu.
 +
* At the login prompt, enter your username (this should be the same as your GatorLink username)
 +
* Enter your password when prompted. You are now connected and ready to work!
 +
 
 +
'''Tabby'''
 +
* [https://github.com/Eugeny/tabby/releases/latest Download Tabby] to your local machine: tabby-version#-setup.exe or tabby-version#-portable.zip for a portable version.
 +
* Star the program and click Settings > Profiles > +New profile > SSH connection
 +
  Name: HiPerGator
 +
  Host: hpg.rc.ufl.edu
 +
  Username: <username>
 +
  Password: "Set password" or "Add a private key"
 +
* Click "Save"
 +
* Click on the window icon "New tab with profile" and select "HiPerGator hpg.rc.ufl.edu"
 +
* You are now connected and ready to work!
 +
</div>
 +
</div>
 +
 
 +
===Connecting from Linux===
 +
<div class="mw-collapsible mw-collapsed" style="width:70%; padding: 5px; border: 1px solid gray;">
 +
''Expand this section to view instructions for logging in with Linux/Unix.''
 +
<div class="mw-collapsible-content" style="padding: 5px;">
 
Open a terminal and run
 
Open a terminal and run
  ssh -Y <YOUR_USERNAME>@submit.hpc.ufl.edu
+
  ssh <username>@hpg.rc.ufl.edu
where <code><YOUR_USERNAME></code> is your HPC Center username, which was sent to you when you got your HPC Center account.
+
 
 +
Enter your password when the prompt appears. You are now connected and ready to work!
 +
</div>
 +
</div>
 +
 
 +
===Connecting from MacOS X===
 +
<div class="mw-collapsible mw-collapsed" style="width:70%; padding: 5px; border: 1px solid gray;">
 +
''Expand this section to view instructions for logging in with OS X.''
 +
<div class="mw-collapsible-content" style="padding: 5px;">
 +
For OS X users, connection instructions are very similar to those for Linux users.
  
The command <code>ssh -Y <YOUR_USERNAME>@submit.hpc.ufl.edu</code> is what you would type in at a command prompt on your system.  After this, it asks you for a password, which you type in. After that, you are logged in and ready to work.  As a concrete example, if your HPC Center username is "smith", you would use the command <code>ssh smith@submit.hpc.ufl.edu</code> to log into the HPC Center.
+
'''Terminal''', the terminal emulation application for OS X, is located in the folder Applications/Utilities.
  
The <code>-Y</code> flag is used to indicate that the environment should be set up for running graphical user interface applications at HPC remotely and is otherwise not mandatory.
+
Start the Terminal application and run
===Windows===
+
ssh <username>@hpg.rc.ufl.edu
Microsoft Windows does not come with a built-in SSH client. You have to download a client from the web. We recommend the following software:
 
* SSH client - [http://www.chiark.greenend.org.uk/~sgtatham/putty Putty]
 
** [[PuTTY|configuration instructions for UF HPC]]
 
* Graphical file transfer clients:
 
** [http://filezilla-project.org/download.php?type=client FileZilla]
 
** [http://winscp.net/eng/index.php WinSCP]
 
====X Windows Connectivity====
 
For Windows users who would like to run graphical user interface applications remotely at UF HPC, there are several software options. The most recent one we have found is a software suite called [http://www.straightrunning.com/XmingNotes/ Xming] that has a free version available for [http://sourceforge.net/projects/xming/files/Xming/6.9.0.31/Xming-6-9-0-31-setup.exe/download download at SourceForge.net].
 
  
===Macintosh===
+
Enter your password when the prompt appears. You are now connected and ready to work!
For Macintosh users that are running OS X the connection instructions are very similar to those for Linux users.
+
</div>
 +
</div>
  
The terminal program on a Macintosh is located in Applications/Utilities.
+
==Transferring Data==
 +
If you need to transfer datasets to or from HiPerGator and your local computer or another external location you have to pick the appropriate transfer mechanism.
  
Either  [http://filezilla-project.org/download.php?type=client FileZilla] or [http://cyberduck.ch/ Cyberduck] can be used as a graphical file transfer software on MacOS.
+
===SFTP===
 +
SFTP, or secure file transfer, works well for small to medium data transfers and is appropriate for both small and large data files.
  
==Interactive work under Linux==
+
If you would like to use a Graphical User Interface secure file transfer client we recommend:
Once you connect to UF HPC you will find yourself in a command line (CLI) environment that may be daunting at first. However, the main operations that you need to do to get your work done at HPC are pretty simple. See the [[Getting_Started_on_Linux]] tutorial to get going without delay.
+
* <s>[https://filezilla-project.org/download.php?show_all=1 FileZilla] for Windows or MacOS X.</s>
==Getting Help==
+
: The FileZilla installer contains adware/malware and probably should be avoided.
If you are having problems connecting to the HPC system, please let the HPC Staff know by submitting a [http://support.hpc.ufl.edu Support Request Ticket].
+
* [http://winscp.net/eng/index.php WinSCP] for Windows.
 +
* [http://cyberduck.io/ Cyberduck] for MacOS X and Windows.
  
==Looking Around==
+
After you have chosen and downloaded a client, configure the client to connect to <code>hpg.rc.ufl.edu</code>, specifying port number 22. Use your username and password to log in.
We expect the users of the HPC Center cluster to already have a working knowledge of the linux operating system, so we are not going to go into detail here on using the operating system. Below are some links to webpages that describe a lot of this, however:
 
* [http://www.tutorialized.com/tutorial/Basic-Linux-Shell-commands/21596 Basic Linux Shell Commands]
 
===Basic Commands===
 
{| border=1
 
|-
 
! Command !! Description
 
|-
 
| ls || List files in the current directory
 
|-
 
| cd || Change directory
 
|-
 
| more || View a file
 
|-
 
| mkdir <dir> || Make a directory
 
|-
 
| cp file1 file2 || Copy a file
 
|-
 
| mv file1 file2 || Move/Rename a file
 
|-
 
| rm file || Remove a file
 
|-
 
| rmdir dir || Remove an ''empty'' directory
 
|}
 
  
===File System===
+
===Rsync===
We have a structured file system that is important to know about. Please read about it here: [[HPC File System]]
+
If you prefer to use the command-line or to get maximum efficiency from your data transfers Rsync, which is an incremental file transfer utility that minimizes network usage, is a good choice. It does so by transmitting only the differences between local and remote files rather than transmitting complete files every time a sync is run as SFTP does. Rsync is best used for tasks like synchronizing files stored across multiple subdirectories, or updating large data sets. It works well both for small and large files. [[Rsync|See the Rsync page]] for instructions on using rsync.
  
==Editing==
+
===Globus===
Editing files on the cluster can be done through a couple of different methods...
+
Globus is a high-performance mechanism for file transfer. Globus works especially well for transferring large files or data sets
===In-System Editors===
+
 
* '''vi''' - vi is the basic editor for a number of people. Using the editor is not necessarily intuitive, so we have provided a link to a tutorial.
+
* [[Globus|See the Globus page]] for setup and configuration information.
** [http://www.eng.hawaii.edu/Tutor/vi.html VI Tutorial]
 
** There is also a VI tutorial on the system that you can use, called '''vimtutor'''. Once logged in, simply type the following on the command line and it will take you on a tutorial for VI:
 
<pre>
 
$ vimtutor
 
</pre>
 
** Another small resource for vi is right here in our [[vi | wiki]]
 
* '''emacs''' - emacs is a much heavier duty editor, but again has the problem of having commands that are non-intuitive. Again, we have provided a link to a tutorial for this editor.
 
** [http://www2.lib.uchicago.edu/~keith//tcl-course/emacs-tutorial.html Emacs Tutorial]
 
* '''pico''' - While pico is not installed on the system, [[nano]] is installed, and is a clone of pico.
 
* '''nano''' - nano has a good amount of on-screen help to make it easier to use.
 
  
===External Editors===
+
===Samba===
You can also use your favorite editor on your local machine and then transfer the files over to the HPC Cluster afterwards. One caveat to this is that with files created on Windows machines, very often extra characters get injected into text files which can cause major problems when it comes time to interpret the files. If this happens, there is a utility called <code>dos2unix</code> that you can use to remove the extra characters.
+
Samba service, also known as a '<code>network share</code>' or '<code>mapped drive</code>' provides you with an ability to connect to some HiPerGator filesystems as locally mapped drives (or mount points on Linux or MacOS X).Once you connected to a share this mechanism provides you with a file transfer option that allows you to use your client computer's native file manager to access and manage your files.  UFRC Samba setup does not provide high performance, so try to use it sparingly and for smaller files, like job scripts or analysis reports to be copied to  your local system. You must be connected to the UF network (either on-campus or through the [[VPN]]) to connect to Samba shares.
  
==Running Jobs==
+
* [[Samba_Access|See the page on accessing Samba]] for setup information specific to your computer's operating system.
===General Scheduling===
 
Jobs from faculty investors in the HPC Center are now favored over jobs from groups who did not invest in the HPC Center.
 
  
Job scheduling has been a big topic with the HPC committee in the last several months. The HPC Center staff has been directed by the committee to improve the quality of service of job scheduling for jobs coming from investors in the HPC Center. This means reducing the time spent in the queues and allowing jobs from the investors to capture the full share of the resources that they have paid for.  The HPC committee recently adopted a document which spells out what they want.
+
===Automounted Paths===
 +
Note: NFS-based storage on our systems are typically automounted, which means they are dynamically mounted only when users are actually accessing them. For example if you have an invested folder as /orange/smith, to access it you will have to specifically type in the full path of "/orange/smith" to be able to see the contents and access them. Directly browsing /orange will not show the smith sub-folder unless someone else is using it coincidentally. Automounted folders are pretty common on the systems, they include /orange, /bio, /rlts and even /home etc.
  
Jobs can be submitted on '''submit.hpc.ufl.edu'''.
+
==Editing your files==
 +
Several methods exist for editing your files on the cluster.
 +
===Native Editors===
 +
* '''vi''' - The visual editor (vi) is the traditional Unix editor; however, it is not necessarily the most intuitive editor. [http://www.eng.hawaii.edu/Tutor/vi.html View a tutorial for using vi]
 +
* '''emacs''' - Emacs is a much heavier duty editor, but again has the problem of having commands that are non-intuitive. [http://www2.lib.uchicago.edu/~keith//tcl-course/emacs-tutorial.html View a tutorial for using emacs]
 +
* '''pico''' - While pico is not installed on the system, nano is installed, and is a pico work-a-like.
 +
* '''nano''' - Nano has a good bit of on-screen help to make it easier to use.
  
===Torque Scheduler===
+
===External Editors===
The [http://www.clusterresources.com/pages/products/torque-resource-manager.php Torque Resource Manager] has been installed on the HPC cluster, and is slowly being switched over to from the PBS Pro scheduler as time goes on. The [[Maui]] scheduler is also running in this environment.
+
You can also use your favorite file editor on your local machine, and then transfer the files to the cluster afterward. A caveat to this is that files created on Windows machines usually contain unprintable characters, which may be misinterpreted by Linux command interpreters (shells). If this happens, there is a utility called <code>dos2unix</code> that you can use to convert the text file from DOS/Windows formatting to Linux formatting.
  
The Torque scheduler is installed on the cluster, and accepts the same commands as the PBS Pro scheduler with a couple of exceptions. Currently we are experimenting with these packages so that we can provide improved scheduling to HPC users. While we are still learning about Torque and [[Maui]], our experiences so far have been good and we are guardedly optimistic that Torque and Maui will end up being the resource manager and scheduler for the HPC Center sometime in the not-too-distant future.
+
==Using installed software==
 +
The full list of software available for use can be viewed on the [[Installed_Software|Installed Software]] page. Access to installed software is provided through [[Modules|Environment Modules]].
  
Please note the following.
+
The following command can be used to browse the full list of available modules, along with short descriptions of the applications they make available:
 +
<pre>
 +
module spider
 +
</pre>
  
* If your job is single-threaded (1 cpu) and does not have heavy I/O requirements, it does not need to run on an infiniband-enabled node.  In that case, you should include the "gige" property in your PBS resource specification as follows
+
To load a module, use the following command:
 
<pre>
 
<pre>
#PBS  -l nodes=1:ppn=1
+
module load <module_name>
 
</pre>
 
</pre>
* If you need to run an mpi-based application that has not been rebuilt for OpenMPI 1.2.0+Torque, please send us a note and we'll be happy to rebuild  what you need - first come, first serve.
 
* If you build your own MPI-based application executables, you should use the MPI compiler wrappers (mpif90, mpicc, mpiCC) in /opt/intel/ompi/1.2.0/bin.  These wrappers will automatically pull in the correct libraries.
 
* We will continue to tune the maui scheduler to provide fair and efficient scheduling according to the policies established by the HPC Committee and within the capabilities of the maui scheduler.    Keep in mind that these policies include priority and quality-of-service commitments to those faculty who have invested in the resources within the HPC Center.
 
  
 +
For more information on loading modules to access software, view the page on the [[Modules_Basic_Usage|basic usage of environment modules]].
 +
 +
There are some useful commands and utilities in a [[UFRC_environment_module|'ufrc' environment module]] in addition to installed applications.
 +
 +
==Doing Interactive Testing or Development==
 +
You don't always have to use the SLURM scheduler. When all you need is a quick shell session to run a command or two, write and/or test a job script, or compile some code use [[Development_and_Testing|SLURM Dev Sessions]].
 +
 +
==Running Graphical Programs==
 +
It is possible to run programs that use a graphical user interface (GUI) on the system. However, doing so requires an installation of and configuration of additional software on the client computer.
 +
 +
Please see the [[GUI_Programs|GUI Programs]] page for information on running graphical user interface applications at UFRC.
 +
 +
==Scheduling jobs using SLURM==
 +
UFRC uses the Simple Linux Utility for Resource Management, or '''SLURM''', to allocate resources and schedule jobs. Users can create SLURM job scripts to submit jobs to the system. These scripts can, and should, be modified in order to control several aspects of your job, like resource allocation, email notifications, or an output destination.
  
 +
* See the [[Annotated_SLURM_Script|Annotated SLURM Script]] for a walk-through of the basic components of a SLURM job script
 +
* See the [[Sample_SLURM_Scripts|Sample SLURM Scripts]] for several SLURM job script examples
  
====Trivial Example====
 
{|
 
|-valign="top"
 
|
 
<pre>
 
#! /bin/sh
 
#PBS -N testjob
 
#PBS -o testjob.out
 
#PBS -e testjob.err
 
#PBS -M <INSERT EMAIL HERE>
 
#PBS -r n
 
#PBS -l walltime=00:01:00
 
#PBS -l nodes=1:ppn=1
 
#PBS -l pmem=100mb
 
  
date
+
To submit a job script from one of the login nodes accessed via hpg.rc.ufl.edu, use the following command:
hostname
 
</pre>
 
||
 
To submit this job from [[submit.hpc.ufl.edu]], you would use the following command:
 
 
<pre>
 
<pre>
$ qsub <your job script>
+
$ sbatch <your_job_script>
 
</pre>
 
</pre>
To check the status of running jobs, you would use the following command:
+
To check the status of submitted jobs, use the following command:
 
<pre>
 
<pre>
$ qstat [-u <username>]
+
$ squeue -u <username>
 
</pre>
 
</pre>
or [http://www.hpc.ufl.edu/ HPC] --> Utilization --> [http://www.hpc.ufl.edu/index2.php?body=queue2 Torque Queue Status]
 
|}
 
  
 +
View [[SLURM_Commands]] for more useful SLURM commands.
 +
 +
==Managing Cores and Memory==
 +
The amount of resources within an investment is calculated in NCU (Normalized Computing Units), which correspond to 1 CPU core and about 3.5GB of memory for each NCU purchased. CPUs (cores) and RAM are allocated to jobs independently as requested by your job script.
 +
 +
Your group's investment can run out of **cores** (SLURM may show <code>QOSGrpCpuLimit</code> in the reason a job is pending) OR **memory** (SLURM may show <code>QOSGrpMemLimit</code> in the reason a job is pending) depending on current use by running jobs.
 +
The majority of HiPerGator nodes have the same ratio of about 4 GB of RAM per core, which, after accounting for the operating system and system services, leaves about 3.5 GB usable for jobs; hence the ratio of 1 core and 3.5GB RAM per NCU.
 +
 +
Most HiPerGator nodes have 32 cores and 128 GB RAM (~30,000 cores in the newer part of the cluster) or 64 cores and 256 GB RAM (~16,000 cores in the older part of the cluster). The [[Large-Memory SMP Servers|bigmem]] nodes and the newer Skylake nodes have a higher ratio of 16 GB/core and 6 GB/core, respectively. See [[Available_Node_Features]] for the exact data on resources available on all types of nodes on HiPerGator.
  
'''More information on PBS scripts can be seen with our [[Sample Scripts]].'''
+
You must specify both the number of cores and the amount of RAM needed in the job script for SLURM with the <code>--mem</code> (total job memory) or <code>--mem-per-cpu</code> (per-core memory) options. Otherwise, the job will be assigned the default 600mb of memory.
 +
 +
If you need more than 128 GB of RAM, you can only run on the older nodes, which have 256 GB of RAM, or on the bigmem nodes, which have up to 1.5 TB of RAM.
  
====Notes on Batch Scripts====
+
See [[Account and QOS limits under SLURM]] for an extensive explanation of QOS and SLURM account use.
* The script can handle only one set of directives. '''Do not submit a script that has more than one set of directives''' included in it, as this will cause the [[Moab]]/Torque system to reject the script with a ''qsub: Job rejected by all possible destinations'' error. This problem was first seen when a user complained about a script that was being rejected with this error. Upon further inspection of their script, it was found that the script had concatenated versions of itself in the same file.
 
  
* For more info on '''advanced directives''' see [[PBS_Directives]]
+
==Getting help==
 +
If you are having problems using the UFRC system, please let our staff know by submitting a [http://support.rc.ufl.edu support request].
  
* For a more detailed explanation of what is going on in a [[Batch Script Explanation | batch script]]
+
==Visual Overview==
====Troubleshooting Batch Scripts====
+
The diagram below shown a high-level overview of HiPerGator use. We will go over each part in sections below
* Ensure that you are using the proper MPI execution command for your software. If your software is compiled for MVAPICH, you should be using ''mpiexec''. If it is compiled for OpenMPI, you should be using ''mpirun''.
 
  
==Compiling your own==
+
[[file:HiPerGator.png|800px]]
By default, when you first login to the system you have compilers setup for the Intel OpenMPI compilers. This gives you access to C, C++, F77 and F90 compilers in your path, as well as the mpicc and mpif90 compilers for OpenMPI applications. If you want to change this, you can use the modules system to select a different compiler suite and MPI implementation.
 

Revision as of 20:01, 28 September 2021

Welcome to UF Research Computing! This page is intended to help new users understand and use UFRC resources. Be sure to check out our training schedule if you'd like help getting started in person!

Getting onto HiPerGator

a.k.a From Zero to HiPerGator

There are many approaches and resources a researcher can use to analyze their data. Some analyses can be performed on a laptop or a desktop in the lab. Some analyses that rely on proprietary technologies can be done at least partially with resources and applications provided by the vendor. Some researchers are able to 'game' the cloud spot instance market to find relatively cheap resources to perform their analyses on commercial computational resources and are able to install, manage, and use all applications and workflows they need on their own. However, study after study shows that local HPC resources subsidized by the institution still provide the best cost and level of service to academic researchers. At the University of Florida researchers have access to the best of both worlds - low cost resources and top-notch systems, application, and research facilitation support.

Once analyses move beyond what an individual computer can handle and a UF research group decides to seek additional computational resources the process usually starts from the following steps:

Note: a computational allocation is mandatory! No analyses can be run on HiPerGator without a computational allocation.

Creating an Account

To be able to do anything on HiPerGator you need a UF Research Computing account. To create an account with UF Research Computing, you must read the UFRC Account Policy. After you have reviewed the policy, go to our website to submit an account request. You will have to tell us the name of the Principal Investigator (PI) who sponsors the access of the group. Once the PI approves your access to their allocation your account will be created; the username and password will be the same as your GatorLink username and password. Note: New User Training is now required for all new accounts. You must pass the quiz at the end of the training.

If you are a new Principal Investigator you will need to indicate this on the request form, so that we can create a new group for you. Please note that to do useful work, your group will have to invest into computational resources, or you will have to join a departmental group with a shared allocation.

Introduction to HiPerGator Usage

Once you have an account, see the short Quick Start Guide for hints on getting going and avoiding common pitfalls.

Connecting to HiPerGator

To work on HiPerGator you will have to connect to it from your local computer either via SSH (terminal session) or via one of the web/application interfaces we provide such as Galaxy or Matlab (for Matlab distributed computing toolbox pilot project we are testing).

Note about using this guide: for any given command, <username> should be replaced with the UFRC username (same as your GatorLink username).

For example, if you are referencing the command ssh <username>@hpg.rc.ufl.edu and your Gatorlink username is smith, you would use the command: 

ssh smith@hpg.rc.ufl.edu

Connecting from Windows

Expand this section to view instructions for logging in with Windows.

Since Microsoft Windows does not come with a built-in SSH client, you must download a client from the web.

For University-managed computers PuTTY, Tabby, and Git Bash are approved for 'fast track' installations.

PuTTY

  • Download PuTTY to your local machine and start the program.
  • Connect to hpg.rc.ufl.edu.
  • At the login prompt, enter your username (this should be the same as your GatorLink username)
  • Enter your password when prompted. You are now connected and ready to work!

Tabby

  • Download Tabby to your local machine: tabby-version#-setup.exe or tabby-version#-portable.zip for a portable version.
  • Star the program and click Settings > Profiles > +New profile > SSH connection
 Name: HiPerGator
 Host: hpg.rc.ufl.edu
 Username: <username>
 Password: "Set password" or "Add a private key"
  • Click "Save"
  • Click on the window icon "New tab with profile" and select "HiPerGator hpg.rc.ufl.edu"
  • You are now connected and ready to work!

Connecting from Linux

Expand this section to view instructions for logging in with Linux/Unix.

Open a terminal and run 

ssh <username>@hpg.rc.ufl.edu

Enter your password when the prompt appears. You are now connected and ready to work!

Connecting from MacOS X

Expand this section to view instructions for logging in with OS X.

For OS X users, connection instructions are very similar to those for Linux users.

Terminal, the terminal emulation application for OS X, is located in the folder Applications/Utilities.

Start the Terminal application and run 

ssh <username>@hpg.rc.ufl.edu

Enter your password when the prompt appears. You are now connected and ready to work!

Transferring Data

If you need to transfer datasets to or from HiPerGator and your local computer or another external location you have to pick the appropriate transfer mechanism.

SFTP

SFTP, or secure file transfer, works well for small to medium data transfers and is appropriate for both small and large data files.

If you would like to use a Graphical User Interface secure file transfer client we recommend:

The FileZilla installer contains adware/malware and probably should be avoided.

After you have chosen and downloaded a client, configure the client to connect to hpg.rc.ufl.edu, specifying port number 22. Use your username and password to log in.

Rsync

If you prefer to use the command-line or to get maximum efficiency from your data transfers Rsync, which is an incremental file transfer utility that minimizes network usage, is a good choice. It does so by transmitting only the differences between local and remote files rather than transmitting complete files every time a sync is run as SFTP does. Rsync is best used for tasks like synchronizing files stored across multiple subdirectories, or updating large data sets. It works well both for small and large files. See the Rsync page for instructions on using rsync.

Globus

Globus is a high-performance mechanism for file transfer. Globus works especially well for transferring large files or data sets

Samba

Samba service, also known as a 'network share' or 'mapped drive' provides you with an ability to connect to some HiPerGator filesystems as locally mapped drives (or mount points on Linux or MacOS X).Once you connected to a share this mechanism provides you with a file transfer option that allows you to use your client computer's native file manager to access and manage your files. UFRC Samba setup does not provide high performance, so try to use it sparingly and for smaller files, like job scripts or analysis reports to be copied to your local system. You must be connected to the UF network (either on-campus or through the VPN) to connect to Samba shares.

Automounted Paths

Note: NFS-based storage on our systems are typically automounted, which means they are dynamically mounted only when users are actually accessing them. For example if you have an invested folder as /orange/smith, to access it you will have to specifically type in the full path of "/orange/smith" to be able to see the contents and access them. Directly browsing /orange will not show the smith sub-folder unless someone else is using it coincidentally. Automounted folders are pretty common on the systems, they include /orange, /bio, /rlts and even /home etc.

Editing your files

Several methods exist for editing your files on the cluster.

Native Editors

  • vi - The visual editor (vi) is the traditional Unix editor; however, it is not necessarily the most intuitive editor. View a tutorial for using vi
  • emacs - Emacs is a much heavier duty editor, but again has the problem of having commands that are non-intuitive. View a tutorial for using emacs
  • pico - While pico is not installed on the system, nano is installed, and is a pico work-a-like.
  • nano - Nano has a good bit of on-screen help to make it easier to use.

External Editors

You can also use your favorite file editor on your local machine, and then transfer the files to the cluster afterward. A caveat to this is that files created on Windows machines usually contain unprintable characters, which may be misinterpreted by Linux command interpreters (shells). If this happens, there is a utility called dos2unix that you can use to convert the text file from DOS/Windows formatting to Linux formatting.

Using installed software

The full list of software available for use can be viewed on the Installed Software page. Access to installed software is provided through Environment Modules.

The following command can be used to browse the full list of available modules, along with short descriptions of the applications they make available: 

module spider

To load a module, use the following command: 

module load <module_name>

For more information on loading modules to access software, view the page on the basic usage of environment modules.

There are some useful commands and utilities in a 'ufrc' environment module in addition to installed applications.

Doing Interactive Testing or Development

You don't always have to use the SLURM scheduler. When all you need is a quick shell session to run a command or two, write and/or test a job script, or compile some code use SLURM Dev Sessions.

Running Graphical Programs

It is possible to run programs that use a graphical user interface (GUI) on the system. However, doing so requires an installation of and configuration of additional software on the client computer.

Please see the GUI Programs page for information on running graphical user interface applications at UFRC.

Scheduling jobs using SLURM

UFRC uses the Simple Linux Utility for Resource Management, or SLURM, to allocate resources and schedule jobs. Users can create SLURM job scripts to submit jobs to the system. These scripts can, and should, be modified in order to control several aspects of your job, like resource allocation, email notifications, or an output destination.


To submit a job script from one of the login nodes accessed via hpg.rc.ufl.edu, use the following command: 

$ sbatch <your_job_script>

To check the status of submitted jobs, use the following command: 

$ squeue -u <username>

View SLURM_Commands for more useful SLURM commands.

Managing Cores and Memory

The amount of resources within an investment is calculated in NCU (Normalized Computing Units), which correspond to 1 CPU core and about 3.5GB of memory for each NCU purchased. CPUs (cores) and RAM are allocated to jobs independently as requested by your job script.

Your group's investment can run out of **cores** (SLURM may show QOSGrpCpuLimit in the reason a job is pending) OR **memory** (SLURM may show QOSGrpMemLimit in the reason a job is pending) depending on current use by running jobs. The majority of HiPerGator nodes have the same ratio of about 4 GB of RAM per core, which, after accounting for the operating system and system services, leaves about 3.5 GB usable for jobs; hence the ratio of 1 core and 3.5GB RAM per NCU.

Most HiPerGator nodes have 32 cores and 128 GB RAM (~30,000 cores in the newer part of the cluster) or 64 cores and 256 GB RAM (~16,000 cores in the older part of the cluster). The bigmem nodes and the newer Skylake nodes have a higher ratio of 16 GB/core and 6 GB/core, respectively. See Available_Node_Features for the exact data on resources available on all types of nodes on HiPerGator.

You must specify both the number of cores and the amount of RAM needed in the job script for SLURM with the --mem (total job memory) or --mem-per-cpu (per-core memory) options. Otherwise, the job will be assigned the default 600mb of memory.

If you need more than 128 GB of RAM, you can only run on the older nodes, which have 256 GB of RAM, or on the bigmem nodes, which have up to 1.5 TB of RAM.

See Account and QOS limits under SLURM for an extensive explanation of QOS and SLURM account use.

Getting help

If you are having problems using the UFRC system, please let our staff know by submitting a support request.

Visual Overview

The diagram below shown a high-level overview of HiPerGator use. We will go over each part in sections below

HiPerGator.png

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