Using shared resources responsibly
Overview
Teaching: 15 min
Exercises: 5 minQuestions
How can I be a responsible user?
How can I protect my data?
How can I best get large amounts of data off an HPC system?
Objectives
Learn how to be a considerate shared system citizen.
Understand how to protect your critical data.
Appreciate the challenges with transferring large amounts of data off HPC systems.
Understand how to conver many files to a single archive file using tar.
One of the major differences between using remote HPC resources and your own system (e.g. your laptop) is that they are a shared resource. How many users the resource is shared between at any one time varies from system to system but it is unlikely you will ever be the only user logged into or using such a system.
We have already mentioned one of the consequences of this shared nature of the resources: the scheduling system where you submit your jobs, but there are other things you need to consider in order to be a considerate HPC citizen, to protect your critical data and to transfer data
Be kind to the login nodes
The login node is often very busy managing lots of users logged in, creating and editing files and compiling software! It doesn’t have any extra space to run computational work.
Don’t run jobs on the login node (though quick tests are generally fine). A “quick test” is generally anything that uses less than 4GB of memory, 4 CPUs, and 10 minutes of time. If you use too much resource then other users on the login node will start to be affected - their login sessions will start to run slowly and may even freeze or hang.
Login nodes are a shared resource
Remember, the login node is shared with all other users and your actions could cause issues for other people. Think carefully about the potential implications of issuing commands that may use large amounts of resource.
Remember, you can always use the commands top
and ps ux
to list the processes you are running on a login
node and the amount of CPU and memory they are using. The kill
command can be used along
with the PID to terminate any processes that are using large amounts of resource.
Login Node Etiquette
Which of these commands would probably be okay to run on the login node? python physics_sim.py make create_directories.sh molecular_dynamics_2 tar -xzf R-3.3.0.tar.gz
If you experience performance issues with a login node you should report it to the system
staff (usually via the helpdesk) for them to investigate. You can use the top
command
to see which users are using which resources.
Test before scaling
Remember that you are generally charged for usage on shared systems. A simple mistake in a job script can end up costing a large amount of resource budget. Imagine a job script with a mistake that makes it sit doing nothing for 24 hours on 1000 cores or one where you have requested 2000 cores by mistake and only use 100 of them! This problem can be compounded when people write scripts that automate job submission (for example, when running the same calculation or analysis over lots of different input). When this happens it hurts both you (as you waste lots of charged resource) and other users (who are blocked from accessing the idle compute nodes).
On very busy resources you may wait many days in a queue for your job to fail within 10 seconds of starting due to a trivial typo in the job script. This is extremely frustrating! Most systems provide small, short queues for testing that have short wait times to help you avoid this issue.
Test job submission scripts that use large amounts of resource
Before submitting a large run of jobs, submit one as a test first to make sure everything works as expected.
Before submitting a very large or very long job submit a short trunctated test to ensure that the job starts as expected
Have a backup plan
Although many HPC systems keep backups, it does not always cover all the file systems available and may only be for disaster recovery purposes (i.e. for restoring the whole file system if lost rather than an individual file or directory you have deleted by mistake). Your data on the system is primarily your responsibility and you should ensure you have secure copies of data that are critical to your work.
Version control systems (such as Git) often have free, cloud-based offerings (e.g. Github, Gitlab) that are generally used for storing source code. Even if you are not writing your own programs, these can be very useful for storing job scripts, analysis scripts and small input files.
For larger amounts of data, you should make sure you have a robust system in place for taking
copies of critical data off the HPC system wherever possible to backed-up storage. Tools such
as rsync
can be very useful for this.
Your access to the shared HPC system will generally be time-limited so you should ensure you have a plan for transferring your data off the system before your access finishes. The time required to transfer large amounts of data should not be underestimated and you should ensure you have planned for this early enough (ideally, before you even start using the system for your research).
In all these cases, the helpdesk of the system you are using shoud be able to provide useful guidance on your options for data transfer for the volumes of data you will be using.
Your data is your responsibility
Make sure you understand what the backup policy is on the file systems on the system you are using and what implications this has for your work if you lose your data on the system. Plan your backups of critical data and how you will transfer data off the system throughout the project.
Transferring data
As mentioned above, many users run into the challenge of transferring large amounts of data off HPC systems at some point (this is more often in transferring data off than onto systems but the advice below applies in either case). Data transfer speed may be limited by many different factors so the best data transfer mechanism to use depends on the type of data being transferred and where the data is going. Some of the key issues to be aware of are:
- Disk speed - File systems on HPC systems are often highly parallel, consisting of a very large number of high performance disk drives. This allows them to support a very high data bandwidth. Unless the remote system has a similar parallel file system you may find your transfer speed limited by disk performance at that end.
- Meta-data performance - Meta-data operations such as opening and closing files or listing the owner or size of a file are much less parallel than read/write operations. If your data consists of a very large number of small files you may find your transfer speed is limited by meta-data operations. Meta-data operations performed by other users of the system can also interact strongly with those you perform so reducing the number of such operations you use (by combining multiple files into a single file) may reduce variability in your transfer rates and increase transfer speeds.
- Network speed - Data transfer performance can be limited by network speed. More importantly it is limited by the slowest section of the network between source and destination. If you are transferring to your laptop/workstation, this is likely to be its connection (either via LAN or wifi).
- Firewall speed - Most modern networks are protected by some form of firewall that filters out malicious traffic. This filtering has some overhead and can result in a reduction in data transfer performance. The needs of a general purpose network that hosts email/web-servers and desktop machines are quite different from a research network that needs to support high volume data transfers. If you are trying to transfer data to or from a host on a general purpose network you may find the firewall for that network will limit the transfer rate you can achieve.
As mentioned above, if you have related data that consists of a large number of small files it
is strongly recommended to pack the files into a larger archive file for long term storage and
transfer. A single large file makes more efficient use of the file system and is easier to move,
copy and transfer because significantly fewer meta-data operations are required. Archive files can
be created using tools like tar
, cpio
and zip
. We are going to look at tar
as it is the
most commonly used.
The tar
command packs files into a “Tape ARchive” format intended for backup purposes. To create
a compressed archive file from a directory you can use:
[remote]$ tar -cvWlf mydata.tar mydata
[remote]$ gzip mydata.tar
mydata/
mydata/output00063.out
mydata/output00066.out
mydata/output00051.out
mydata/output00002.out
mydata/output00067.out
mydata/output00046.out
mydata/output00041.out
mydata/output00054.out
[long output trimmed]
Verify mydata/
Verify mydata/output00063.out
Verify mydata/output00066.out
Verify mydata/output00051.out
Verify mydata/output00002.out
Verify mydata/output00067.out
Verify mydata/output00046.out
Verify mydata/output00041.out
Verify mydata/output00054.out
[long output trimmed]
(In bash, rather than include all options with their own -
indicator, we can string them together so
the above tar command is equivalent to tar -c -v -W -f mydata.tar mydata
.) The second step
compresses the archive to reduce its size.
The options we used for tar
are:
-c
- Create new archive-v
- Verbose (print what you are doing!)-W
- Verify integrity of created archive-f mydata.tar
- Create the archive in file mydata.tar
To extract files from a tar file, the option -x
is used. If the tar file has also been compressed using
gzip
(as we did above) tar
will automatically uncompress the archive. For example:
[local]$ tar -xvf mydata.tar.gz
mydata/
mydata/output00063.out
mydata/output00066.out
mydata/output00051.out
mydata/output00002.out
mydata/output00067.out
mydata/output00046.out
mydata/output00041.out
mydata/output00054.out
[long output trimmed]
Consider the best way to transfer data
If you are transferring large amounts of data you will need to think about what may affect your transfer performance. It is always useful to run some tests that you can use to extrapolate how long it will take to transfer your data.
If you have many files, it is best to combine them into an archive file before you transfer them using a tool such as
tar
.
Key Points
Be careful how you use the login node.
Your data on the system is your responsibility.
Plan and test large data transfers.
It is often best to convert many files to a single archive file before trasferring.