28 posts tagged with "hyak"

Thanks again for your patience with our monthly scheduled maintenance. During this maintenance session, we were able to provide package updates to node images to ensure compliance with the latest operating system level security fixes and performance optimizations.

The next maintenance will be Tuesday September 10, 2024.

New self-hosted S3 storage option: KOPAH​

We are happy to announce the preview launch of our self-hosted S3 storage called KOPAH. S3 storage is a solution for securely storing and managing large amounts of data, whether for personal use or research computing. It works like an online storage locker where you store can files of any size, accessible from anywhere with an internet connection. For researchers and those involved in data-driven studies, it provides a reliable and scalable platform to store, access, and analyze large datasets, supporting high-performance computing tasks and complex workflows.

S3 uses buckets as containers to store data, where each bucket can hold 100,000,000 objects, which are the actual files or data you store. Each object within a bucket is identified by a unique key, making it easy to organize and retrieve your data efficiently. Public links can be generated for KOPAH objects so that users can share buckets and objects with collaborators.

Click here to learn more about KOPAH S3.

Who should use KOPAH?​

KOPAH is a storage solution for anyone. Just like other storage options out there, you can upload, download, and view your storage bucket with specialized tools and share your data via the internet. For Hyak users, KOPAH provides another storage option for research computing. It is more affordable than /gscratch storage and can be used for active research computing with a few added steps for retreiving stored data prior to a job.

Test Users Wanted​

Prior to September, we are inviting test users to try KOPAH and provide feedback about their experience. If you are interested in becoming a KOPAH test user, please each help@uw.edu with Hyak or KOPAH in the subject line.

Requirements:

1. While we will not charge for the service until September 1, to sign up as a test user, we require a budget number and worktag. If the service doesn't work for you, you can cancel before September.
2. We will ask for a name for the account. If your groups has an existing account on Hyak, klone /gscratch, it makes sense of the names to match across services.
3. Please be ready to respond with your feedback about the service.

Opportunities​

PhD students should check out this opportunity for funding from NVIDIA: Graduate Research Fellowship Program

Questions? If you have any questions for us, please reach out to the team by emailing help@uw.edu with Hyak in the subject line.

Thanks again for your patience with our monthly scheduled maintenance. During this maintenance session, we were able to provide package updates to node images to ensure compliance with the latest operating system level security fixes and performance optimizations.

The next maintenance will be Tuesday August 13, 2024.

Questions? If you have any questions for us, please reach out to the team by emailing help@uw.edu with Hyak in the subject line.

Thanks again for your patience with our monthly scheduled maintenance. This month, we deployed new node resources that were purchased by various UW Researchers from across campus. These nodes are a little different, so we wanted to bring your attention to them and provide guidance on their use when they are idle with the checkpoint partition.

New G2 Nodes​

A new class of nodes have been deployed on klone which we are calling g2 because they are the second generation of nodes, and we will retroactively refer to the first generation nodes as g1. g2 CPU nodes feature AMD EPYC 9000-series 'Genoa' processors, and new GPU nodes featuring either NVIDIA L40 or L40S GPUs (with H100 GPUs possibly becoming available in the future). These nodes will join our community resources that can be used when idle (ckpt) under the new partitions:

• ckpt-g2 for scheduling jobs on g2 nodes only.
• ckpt-all for scheduling jobs on either g1 or g2 nodes.
• ckpt will now schedule jobs on g1 nodes only.

Please review our documentation HERE for specific instructions for accessing these resources. Additionally, please see the blog post HERE where we discuss additional considerations for their usage.

To accompany the new g2 node deployments, we are providing a new Open MPI module (ompi/4.1.6-2), which is now the default module when module load ompi is executed. Previous OpenMPI modules will cause errors if used with the AMD processors on the new g2 nodes due to how the software was compiled. ompi/4.1.6-2 (and any openmpi module versions we provide in the future) are compiled to support both Intel and AMD processors. If your MPI jobs are submitted to a partition that includes g2 nodes, you should use module load ompi to use the new module by default, or explicitly load ompi/4.1.6-2 (or a newer version in the future) via module load ompi/4.1.6-2.

If you have compiled software on g1 nodes, you should test them on g2 nodes before bulk submitting jobs to partitions with g2 nodes (i.e., ckpt-g2 and ckpt-all), as they may or may not function properly depending on exactly how they were compiled.

Student Opportunities​

In addition, we have two student opportunities to bring to your attention.

Job Opportunity: The Research Computing (RC) team at the University of Washington (UW) is looking for a student intern to spearhead projects that could involve: (1) the development of new tools and software, (2) research computing documentation and user tutorials, or (3) improvements to public-facing service catalog descriptions and service requests. Hyak is an ecosystem of high-performance computing (HPC) resources and supporting infrastructure available to UW researchers, students, and associated members of the UW community. Our team administers and maintains Hyak as well as provides support to Hyak users. Our intern will be given the choice of projects that fit their interest and experience while filling a need for the UW RC community. This role will provide students with valuable hands-on experiences that enhance academic and professional growth.

The position pays $19.97-21.50 per hour depending on experience with a maximum of 20 hours per week (Fall, Winter, and Spring) and a maximum of 40 hours allowed during summer quarter. How to apply: Please apply by emailing: 1) a current resume and 2) a cover letter detailing your qualifications, experience, and interest in the position to me, Kristen Finch (UWNetID: finchkn). Due to the volume of applications, we regret that we are unable to respond to every applicant or provide feedback.

Minimum Qualifications:

• Student interns must hold at least a 2nd year standing if an undergraduate student.
• Student interns must be able to access the internet.
• Student interns must be able to demonstrate an ability to work independently on their selected project/s and expect to handle challenges by consulting software manuals and publicly available resources.

We encourage applicants that:

• meet the minimum qualifications.
• have an interest in website accessibility and curation.
• have experience in research computing and Hyak specifically. This could include experience in any of the following: 1) command-line interface in a Linux environment, 2) Slurm job scheduler, 3) python, 4) shell scripting.
• have an interest in computing systems administration.
• have an interest in developing accessible computing-focused tutorials for the Hyak user community.

Conference Opportunity: The 2024 NSF Cybersecurity Summit program committee is now accepting applications to the Student Program. This year’s summit will be held October 7th-10th at Carnegie Mellon University in Pittsburgh, PA. Both undergraduate and graduate students may apply. No specific major or course of study is required, as long as the student is interested in learning and applying cybersecurity innovations to scientific endeavors. Selected applicants will receive invitations from the Program Committee to attend the Summit in-person. Attendance includes your participation in a poster session. The deadline for applications is Friday June 28th at 12 am CDT, with notification of acceptance to be sent by Monday July 29th. Click Here to Apply

Our next scheduled maintenance will be Tuesday July, 9, 2024.

Questions? If you have any questions for us, please reach out to the team by emailing help@uw.edu with Hyak in the subject line. Student intern applications sent to help@uw.edu will not be considered. Email applications to finchkn at uw.edu

Hello Hyak Community,

Thanks again for your patience with our monthly scheduled maintenance, there are some notable improvements we implemented today.

klone node image: Over the past few weeks, you may have noticed some klone instability. This was a result of some behind the scenes storage upgrades that inadvertently introduced wider impacts to the existing cluster automation. At the time, we introduced a temporary fix to get the cluster back online but with today’s maintenance we implemented a more comprehensive fix.

Infiniband firmware: The klone cluster is built on the infiniband HPC interconnect for node-to-node communication. While klone originally launched with the HDR generation of infiniband, we have since upgraded mid-klone to have a HDR-NDR hybrid interconnect. NDR infiniband is required to support the latest compute slices we offer. We updated the firmware on our NDR switches following vendor recommendations for increased stability.

Apptainer on MOX: Apptainer (formerly Singularity) is the root-less containerization solution we provide on both Hyak clusters. Apptainer version 1.3.1 was deployed on both klone and MOX. As a reminder, on klone Apptainer is accessed through a module and is only available on compute nodes after module load apptainer. On MOX, Apptainer is default software and can be accessed with Apptainer commands directly after starting an interactive job for example, apptainer --version.

Training Opportunities: COMPLECS (San Diego Supercomputer) is hosting an Intermediate Linux Shell Scripting online workshop on Thursday May, 16 at 11:00 am Pacific Time. Register here.

Our next scheduled maintenance will be Tuesday June, 11, 2024. Stay informed by joining our mailing list. Sign up here.

Questions? If you have any questions for us, please reach out to the team by emailing help@uw.edu with Hyak in the subject line.

Thank you for your patience this month while there was more scheduled downtime than usual to allow for electrical reconfiguration work in the UW Tower data center. We appreciate how disruptive this work has been in recent weeks. Please keep in mind that this work by the data center team has been critical in allowing the facility to increase available power to the cluster to provide future growth capacity, which was limiting deployment of new equipment in recent months.

The Hyak team was able to use the interruption to implement the following changes:

• Increase in checkpoint (--partition=ckpt) runtime for GPU jobs from 4-5 hours to 8-9 hours (pre-emption for requeuing will still occur subject to cluster utilization). Please see the updated documentation page for information about using idle resources.
• The NVIDIA driver has been updated for all GPUs.

Our next scheduled maintenance will be Tuesday May 14, 2024.

Training Opportunities​

Follow NSF ACCESS Training and Events posting HERE to find online webinars about containers, parallel computing, using GPUs, and more from HPC providers around the USA.

Questions? If you have any questions for us, please reach out to the team by emailing help@uw.edu with Hyak in the subject line.

The Research Working Group of the UW AI Task Force would like faculty and research staff input on the needs and challenges of using AI in research at UW across a broad spectrum of disciplines. Please help by responding to a short survey at: https://forms.gle/mZrV3aCgJYNNBV6j8. Responses by April 25 would be most helpful, but the survey will remain open until April 30.

Thank you in advance for your time,

Hyak Team

It has come to our attention that the default configuration of Miniconda and conda environments in the user's home directory leads to hitting storage limitations and the dreaded error Disk quota exceeded. We thought we would take some time to guide users in configuring their conda environment directories and package caches to avoid this error and proceed with their research computing.

Conda's config​

Software is usually accompanied by a configuration file (aka "config file") or a text file used to store configuration data for software applications. It typically contains parameters and settings that dictate how the software behaves and interacts it's environment. Familiarity with config files allows for efficient troubleshooting, optimization, and adaptation of software to specific environments, like Hyak's shared HPC environment, enhancing overall usability and performance. Conda's config file .condarc, is customizable and lets you determine where packages and environments are stored by conda.

Understanding your Conda​

First let's take a look at your conda settings. The conda info command provides information about the current conda installation and its configuration.

conda info

The output shoudl look something like this if you have installed Miniconda3.

     active environment : None
            shell level : 0
       user config file : /mmfs1/home/UWNetID/.condarc
 populated config files : /mmfs1/home/UWNetID/.condarc

          conda version : 4.14.0
    conda-build version : not installed
         python version : 3.9.5.final.0
       virtual packages : __linux=4.18.0=0
                          __glibc=2.28=0
                          __unix=0=0
                          __archspec=1=x86_64
       base environment : /mmfs1/home/UWNetID/miniconda3  (writable)
      conda av data dir : /mmfs1/home/UWNetID/miniconda3/etc/conda
  conda av metadata url : None
           channel URLs : https://conda.anaconda.org/conda-forge/linux-64
                          . . .
          package cache : /mmfs1/home/UWNetID/conda_pkgs
       envs directories : /mmfs1/home/UWNetID/miniconda3/envs
               platform : linux-64
             user-agent : conda/4.14.0 requests/2.26.0 CPython/3.9.5 Linux/4.18.0-513.18.1.el8_9.x86_64 rocky/8.9 glibc/2.28
                UID:GID : 1209843:226269
             netrc file : None
           offline mode : False

The paths shown above will show your username in place of UWNetID. Notice the highlighted lines above showing the absolute path to your config file in your home directory (e.g., /mmfs1/home/UWNetID/.condarc), the directory designated for your package cache (e.g., /mmfs1/home/UWNetID/conda_pkgs), and the directory/ies designated for your environments (e.g., /mmfs1/home/UWNetID/miniconda3/envs). Conda designates directories for your package cache and your environments by default, but under Hyak, your home directory has a 10G storage limit, which can quickly be maxed out by package tarballs and their contents. We can change the location for your package cache and your environments to avoid this.

ls -a

Configuring your package cache and envs directories​

If you don't have a .condarc in your home directory, you can create and edit it with a hyak preloaded editor like nano or vim. Here we will used nano.

nano ~/.condarc

Edit OR ADD the highlighted lines to your .condarc to designate directories with higher storage quotas for our envs_dirs and pkgs_dirs. In this exercise, we will assign our envs_dirs and pkgs_dirs directories to directories in /gscratch/scrubbed/ where we have more storage, although remember scrubbed storage is temporary and files are deleted automatically after 21 days if the timestamps are not updated. Alternatively, your lab/research group might have another directory in /gscratch/ that can be used.

Here is what your edited .condarc should look like.

envs_dirs:
  - /gscratch/scrubbed/UWNetID/envs
pkgs_dirs:
  - /gscratch/scrubbed/UWNetID/conda_pkgs
always_copy: true

In addition to designating the directories, please include always_copy: true, which is required on the Hyak filesystem for configuring your conda in this way.

After .condarc is edited, we can use conda info with grep to see if our changes have been incorporated.

conda info |grep cache 

The result should be something like

/gscratch/scrubbed/UWNetID/conda_pkgs

And for the environments directory

conda info |grep envs

Result

/gscratch/scrubbed/UWNetID/envs

Cleaning up disk storage​

After you have reset the package cache and environment directories with your conda config file, you can delete the previous directories to free up storage. Before doing that, you can monitor how much storage was being occupied by each item in your home directory with the command du -h --max-depth=1. Remove directories previously used as cache and envs_dir recursively with rm -r. The following is an example of monitoring storage and removing directories.

Below is an example output from the du -h --max-depth 1 command

du -h --max-depth=1 /mmfs1/home/UWNetID/
6.7G	./miniconda3/
4.0G	./conda_pkgs
. . .
rm -r /mmfs1/home/UWNetID/miniconda3/envs
du -h --max-depth=1 /mmfs1/home/UWNetID/
2.6G	./miniconda3/
4.0G	./conda_pkgs
. . .

Storage can also be managed by cleaning up package cache periodically. Get rid of the large-storage tar archives after your conda packages have been installed with conda clean --all.

Lastly, regular maintenance of conda environments is crucial for keeping disk usage in check. Review you list of conda environments with conda env list and remove unused environments using the conda remove --name ENV_NAME --all command. Consider creating lightweight environments by installing only necessary packages to conserve disk space. For example, create an environment for each project (project1_env) rather than an environment for all projects combined (myenv).

Disk quota STILL exceeded​

Be aware that many software packages are configured similarly to conda. Explore the documentation of your software to locate the configuration file and anticipate where storage limitations might become an issue. In some cases, you may need to edit or create a config file for the software to use. pip and R are two other common offenders ballooning the disk storage in your home directory.

Configuring PIP​

If you are installing with pip, you might have a pip cache in ~/.cache/pip. Let's locate your the pip config file location under variant "global." You might have to activate a previously built conda environment to do this. For this exercise we will use an environment called project1_env.

conda activate project1_env
(project1_env) $ pip config list -v
. . .
For variant 'user', will try loading '/mmfs1/home/UWNetID/.pip/pip.conf'
. . .

The message "will try loading" rather than listing the config file pip.conf means that a pip config file has not been created. We will create our config file and set our pip cache. Create a directory in your home directory (e.g.,/mmfs1/home/UWNetID/.pip) to hold your pip config file and create a file called pip.conf with the touch command. Remember to also create the new directory for your new pip cache if you haven't yet.

mkdir /mmfs1/home/UWNetID/.pip/
touch /mmfs1/home/UWNetID/.pip/pip.conf
mkdir /gscratch/scrubbed/UWNetID/pip_cache

Open pip.conf with nano or vim and add the following lines to designate the location of your pip cache.

[global]
cache-dir=/gscratch/scrubbed/UWNetID/pip_cache

Check that your pip cache has been designated.

(project1_env) $ pip config list
/mmfs1/home/UWNetID/.pip/pip.conf
(project1_env) $ pip cache dir
/gscratch/scrubbed/UWNetID/pip_cache

Configuring R​

We previously covered this in our documentation. Edit or create a config file called .Renviron in your home directory. Use nano or vim to designate the location of your R package libraries. The contents of the file should be something like the following example.

R_LIBS="/gscratch/scrubbed/UWNetID/R/"

The directory designated by R_LIBS will be where R installs your package libraries.

I'm still stuck​

Please reach out to us by emailing help@uw.edu with "hyak" in the subject line to open a help ticket.

For our March maintenance we had some notable changes we wanted to share with the community.

Login Node​

Over the last several months the login node has been crashing on occasion. We have been monitoring and dissecting the kernel dumps from each crash and this behavior seems to be highly correlated with VS Code Remote-SSH extension activity. To prevent node instability, we have upgraded the storage drivers to the latest version. If you are a VS Code user and connect to klone via Remote-SSH, we have some recommendations to help limit the possibility that your work would cause system instability on the login node.

Responsible Usage of VS Code Extension Remote-SSH​

While developing your code with connectivity to the server is a great usage of our services, connecting directly to the login node via the Remote-SSH extension will result in VS Code server processes running silently in the background and leading to node instability. As a reminder, we prohibit users running processes on the login node.

1. Check which processes are running on the login node, especially if you have been receiving klone usage violations when you are not aware of jobs running. Look for vscode-server among the listed processes.

   $ ps aux | grep UWNetID
   

2. If you need to develop your code with connectivity to VS Code, use a ProxyJump to open a connection directly to a compute node. Step 1 documentation. and then use the Remote-SSH extension to connect to that node through VS Code on your local machine, preserving the login node for the rest of the community. Step 2 documentation.

3. Lastly, VS Code’s high usage is due to it silently installing its built in features into the user's home directory ~/.vscode on klone enabling intelligent autocomplete features. This is a well known issue, and there is a solution that involves disabling the @builtin TypeScript plugin from the VS Code on your local machine. Here is a link to a blog post about the issue and the super-easy solution. Disabling @builtin TypeScript will reduce your usage of the shared resources and avoid problems.

In addition to the upgrade of the storage driver, we performed updates to security packages.

Training Opportunities​

We wanted to make you aware of two training opportunities with the San Diego Supercomputer Center. If you are interested in picking up some additional skills and experience in HPC, check this blog post.

Questions?​

If you have any questions for us, please reach out to the team by emailing help@uw.edu with Hyak in the subject line.

Hello Hyak community! We have a few notable announcements regarding this month’s maintenance. If the hyak-users mailing list e-mail didn’t fully satisfy your curiosity, hopefully this expanded version will answer any lingering questions.

GPUs​

• Software: The GPU driver was upgraded to the latest stable version (545.29.06). The latest CUDA 12.3.2 is also now provided as a module. You are also encouraged to explore the use of container (i.e., Apptainer) based workflows, which bundle various versions of CUDA with your software of interest (e.g., PyTorch) over at NGC. NOTE: Be sure to pass the --nv flag to Apptainer when working with GPUs.

• Hardware: The Hyak team has also begun the early deployments of our first Genoa-Ada GPU nodes. These are cutting-edge NVIDIA L40-based GPUs (code named “Ada”) running on the latest AMD processors (code named “Genoa”) with 64 GPUs released to their groups two weeks ago and an additional 16 GPUs to be released later this week. These new resources are not currently part of the checkpoint partition but we will be releasing guidance on making use of idle resources here over the coming weeks directly to the Hyak user documentation as we receive feedback from these initial researchers.

Storage​

• Performance Upgrade: In recent weeks, AI/ML workloads have been increasingly stressing the primary storage on klone (i.e., "gscratch"). Part of this was attributed to the run up to the International Conference for Machine Learning (ICML) 2024 full paper deadline on Friday, February 2. However, it also reflects a broader trend in the increasing demands of data-intensive research. The IO profile was so heavy at times that our systems automation throttled the checkpoint capacity to near 0 in order to keep storage performance up and prioritize general cluster navigation and contributed resources. We have an internal tool called iopsaver that automatically reduces IOPS by intelligently requeuing checkpoint jobs generating the highest IOPS while concurrently limiting the number of total active checkpoint jobs until the overall storage is within its operating capacity. At times over the past few weeks you may have noticed that iopsaver had reduced the checkpoint job capacity to near 0 to maintain overall storage usability.

  During today’s maintenance, we have upgraded the memory on existing storage servers so that we could enable Local Read-Only Cache (LROC) although we don’t anticipate it will be live until tomorrow. Once enabled, LROC allows the storage cluster to make use of a previously idle SSD capacity to cache frequently accessed files on this more performant storage tier medium. We expect LROC to make a big difference as during this period of the last several weeks, the majority of the recent IO bottlenecking was attributed to a high volume of read operations. As always, we will continue to monitor developments and adjust our policies and solutions accordingly to benefit the most researchers and users of Hyak.

• Scrubbed Policy: In the recent past this space has filled up. As a reminder, this is a free-for-all space and a communal resource for when you have data you only need to temporarily burst out into past your usual allocations from your other group affiliations. To ensure greater equity among its use, we have instituted a 10TB and 10M files limit for each user in scrubbed. This impacts <1% of users as only a handful of users were using an amount of quota from scrubbed >10TB.

Questions?​

Hopefully you found these extra details informative. If you have any questions for us, please reach out to the team by emailing help@uw.edu with Hyak somewhere in the subject or body. Thanks!

We’ve made an update to our storage accounting tool, hyakstorage, and with this update we are also phasing out usage_report.txt. That text file contained minimally-parsed internal metrics of the storage cluster, and we found it caused as many questions as it answered. Moving forward, the hyakstorage tool will display only the four relevant pieces of information for each fileset you query: storage space used vs. the storage space limit, and current amount of files (inodes) vs. maximum number of files.

The default operation–running hyakstorage with no arguments–will show your home directory & the gscratch directories you have access to, and it will only show the fileset totals & your contributions.

You can also specify which filesets you want to view, in a few different ways: you can use the flag --home to show your home directory, --gscratch to show your gscratch directories, and --contrib to show your group’s contrib directories. You can also specify an exact gscratch directory with the group name (e.g. hyakstorage stf), contrib directory (e.g. hyakstorage stf-src), or full path to a fileset (e.g. hyakstorage /mmfs1/gscratch/stf).

If you want more detailed metrics, you can use the flags --show-user or --show-group to break down the fileset totals by individual users or groups. Those detailed metrics can be sorted by space with --by-disk (the default) or by files with --by-files.

See also:

• gscratch documentation and
• hyakstorage documentation.