Category

Systems and Services

Jul 17 2023
0

Secure Enclave Service rate approved, shortcode needed by July 25 

By | Data, News, Systems and Services, Uncategorized

The Yottabyte Research Cloud (YBRC) migrated to the Secure Enclave Services (SES) in 2022. The new system provides improved performance for researcher workloads. Due to this transition, ARC began billing researchers who consume more than 16 gigabytes (GB) of RAM (memory) per month on July 1, 2023. 

The first 16 GB of RAM (memory) is covered by the U-M Research Computing Package (UMRCP). If you have not already requested or been granted the UMRCP, learn more and request it on the UMRCP service page on the ARC website.

Approved rate 

The approved rate for a Secure Enclave Services machine is $7.00 per GB of RAM (memory) per machine, per month. Visit the Rates page on the ARC website for information about billing for all ARC services. 

Action requested: Submit a shortcode 

A shortcode is needed to accommodate billing for any resources consumed that are not covered by the UMRCP. Please submit a shortcode no later than July 25, 2023. Access to your machine will be removed or reduced if a shortcode is not on file by July 25. Contact us at arc-support@umich.edu to submit your shortcode, or make any changes to the configuration or use of your machines. 

Some schools and colleges (including the U-M Medical School) are subsidizing the use of Secure Enclave Services beyond the 16 GB of RAM (memory). Talk to your unit’s IT staff or email ARC to learn more. 

Contact ARC (arc-support@umich.edu) if you would like to meet with the ARC storage manager to ask questions or get clarification.

May 24 2023
0

Globus can now be used with Armis2 

By | Armis2, HPC, News, Uncategorized

Researchers who have an Armis2 High-Performance Computing account can now move data to and from other Protected Health Information (PHI)-approved systems using Globus File Transfer. (The endpoint is umich#armis2.) 

To learn more about your responsibility and approved services, visit the Sensitive Data Guide and the Protected Health Information (PHI) webpage on the Safe Computing Website. Send an email to ARC at arc-support@umich.edu to get started using Globus with PHI on your own system (this is not needed for researchers using ARC services including Armis2, and Data Den and Turbo with Sensitive Data).

“With the addition of Globus on Armis2, researchers using ITS ARC services can use the same Globus tools and processes to securely and reliably move their data on all ARC systems and across the university and beyond,” said Matt Britt, ARC HPC systems manager.

Globus allows the transfer and collaborative access of data between different storage systems, lab computers, and personal desktops and laptops. Globus enables researchers to use a web browser to submit transfer and data synchronization requests between destinations. 

As a robust, cloud-based, file transfer service, Globus is designed to securely move your data, ranging from megabytes to petabytes. ARC is a Globus Subscription Provider for the U-M community, which allows U-M resources to serve as endpoints or collections for file transfers.

“There are many interesting research collaborations happening at U-M, as well as nationally and internationally. Globus can facilitate all of those interactions securely,” said Brock Palen, ARC director. “Globus is the go-to tool we recommend for data transfer.”

Learn more 

How can we help you?

For assistance or questions, contact ARC at arc-support@umich.edu.

Apr 14 2023
0

ARC Summer 2023 Maintenance happening in June

By | HPC, News, Systems and Services

Summer maintenance will be happening earlier this year (June instead of August). Updates will be made to software, hardware, and operating systems to improve the performance and stability of services. ARC works to complete these tasks quickly to minimize the impact of the maintenance on research.

The dates listed below are the weeks the work will be occurring; the actual dates will be revised as planning continues.

HPC clusters and storage systems (/scratch) will be unavailable:

  • June 5-9: Great Lakes, Armis2, and Lighthouse

Storage systems will be unavailable:

  • June 6-7: Turbo, Locker, and Data Den

Queued jobs and maintenance reminders

Jobs will remain queued, and will automatically begin after the maintenance is completed. The command “maxwalltime” will show the amount of time remaining until maintenance begins for each cluster, so you can size your jobs appropriately. The countdown to maintenance will also appear on the ARC homepage

Status updates

How can we help you?

For assistance or questions, contact ARC at arc-support@umich.edu.

Feb 22 2023
0

Globus maintenance happening at 9 a.m. on March 11

By | Armis2, Data, General Interest, Great Lakes, HPC, News, Research, Uncategorized

Due to planned maintenance by the vendor, Globus services will be unavailable for up to two hours beginning at 9 a.m. U.S. Eastern Time (10 a.m. Central Time) on Saturday, March 11, 2023.

Customers will not be able to authenticate or initiate any transfers during that time. Any transfers that have started before the outage will be stalled until the outage is over. Transfers will resume once maintenance is complete.

More details are available on the Globus blog.

For assistance or questions, please contact ARC at arc-support@umich.edu.

Feb 15 2023
0

Protein structure prediction team achieved top rankings

By | Great Lakes, News, Uncategorized

CASP15 is a bi-annual competition assessment of methods of protein structure modeling. Independent assessors then compared the models with experiments, and the results and their implications were discussed at the CASP15 Conference, held December 2022, in Turkey.

A joint team with members from the labs of Dr. Peter Freddolino and Dr. Yang Zhang took first place in the Multimer and Interdomain Prediction categories, and was again the top-ranked server in the Regular (domains) category according to the CASP assessor’s criteria.

These wins are well-earned. Freddolino noted, “This is a highly competitive event, against some of the very best minds and powerful companies in the world.”

The Zhang/Freddolino team competed against nearly 100 other groups which include other academic institutions, as well as major cloud and commercial companies. Groups from around the world submitted more than 53,000 models on 127 modeling targets in 5 prediction categories. 

“Wei’s predictions did amazingly well in CASP15!,” said Freddolino. Wei Zheng, Ph.D., is a lab member and a research fellow with the Department of Computational Medicine and Bioinformatics (DCMB). 

Zheng said that the team participates in the regular protein structure prediction and protein complex structure prediction categories. “The results are assessed as regular protein domain modeling, regular protein inter-domain modeling, and protein complex modeling. In all categories, our models performed very well!” 

The technology that supported this impressive work 

The resources to achieve these results were grant-funded, which allowed the team to leverage a number of university resources, including:  

  • The Lighthouse High-Performance Computing Cluster (HPC) service. Lighthouse is managed by the Advanced Research Computing (ARC) team, and ARC is a division of Information and Technology Services (ITS). 
  • The algorithms were GPU-intensive and run on the Great Lakes HPC Cluster. Graphics processing units (GPUs) are specialized processors designed to accelerate graphics rendering. The Great Lakes cluster provided additional space for running compute cycles. Kenneth Weiss, IT project manager senior with DCMB and HITS, said that many of the algorithms used by Zheng benefited from the increased performance of being able to compute the data on a GPU.
  • Multiple storage systems, including Turbo Research Storage. High-speed storage was crucial for storing AI-trained models and sequence libraries used by the methods developed by Zhang, Freddolino, and Zheng called D-I-TASSER/DMFold-Multimer. 
  • Given the scale of the CASP targets, the grant-funded compute augmented capacity by utilizing the Great Lakes cluster, Freddolino and his team took advantage of the allocations provided by the ITS U-M Research Computing Package (UMRCP) and the HITS Michigan Medicine Research Computing Investment (MMRCI) programs which defrayed the cost of computing substantially.
  • The collaboration tool Slack was used to keep Freddolino and Zheng in close contact with ARC and the DCMB teams. This provided the ability to deal with issues promptly, avoiding delays that would have had a detrimental impact on meeting CASP targets.

Technology staff from ARC, DCMB, and Health Information and Technology Services (HITS) provided assistance to the research team. All of the teams helped with the mitigation of bottlenecks that affected speed and throughput that Zheng needed for results. Staff also located and helped leverage resources including those on Great Lakes, utilizing available partitions and queues on the clusters.

“Having the flexibility and capacity provided by Great Lakes was instrumental in meeting competition deadlines,” said Weiss.

DCMB staff and the HITS HPC Teams team took the lead on triaging software problems giving Freddolino’s group high priority.

ARC Director Brock Palen provided monitoring and guidance on real-time impact and utilization of resources. “It was an honor to support this effort. It has always been ARC’s goal to take care of the technology so researchers can do what they do best. In this case, Freddelino and Zheng knocked it out of the park.” 

Jonathan Poisson, technical support manager with DCMB, was instrumental in helping to select and configure the equipment purchased by the grant. “This assistance was crucial in meeting the tight CASP15 targets, as each target is accompanied by a deadline for results.” 

Read more on the Computational Medicine and Bioinformatics website and the Department of Biological Chemistry website.

Related presentation: D-I-TASSER: Integrating Deep Learning with Multi-MSAs and Threading Alignments for Protein Structure Prediction

The resources to achieve these results were provided by an NIH-funded grant (“High-Performance Computing Cluster for Biomedical Research,” SIG: S10OD026825). 

Dec 16 2022
0

2023 Winter Maintenance & Globus File Transfer upgrade 

By | Feature, General Interest, Great Lakes, HPC, News, Systems and Services

Winter maintenance is coming up! See the details below. Reach out to arc-support@umich.edu with questions or if you need help. 

These services will be unavailable: 

  • Great Lakes – We will be updating Great Lakes on a rolling basis throughout December and beginning of January, and if successful, there should be no downtime or impact, with the following exceptions: 
    • Single precision GPUs (SPGPU) will be down Jan. 4-5 for networking maintenance. Those nodes will return back to production when maintenance has been completed and the nodes have been reloaded.
    • Customers will be notified via email of any changes to Great Lakes maintenance that will require downtime.
    • If unsuccessful, the Great Lakes maintenance will begin on Jan. 4-5, starting at 8am.  In either case, we will email everyone with the updated maintenance status.
  • Globus on the storage transfer nodes: Jan. 17-18.

Maintenance notes:

  • No downtime for ARC storage systems maintenance (Turbo, Locker, and Data Den).
  • Open OnDemand (OOD) users will need to re-login. Any existing jobs will continue to run and can be reconnected in the OOD portal.
  • Login servers will be updated, and the maintenance should not have any effect on most users. Those who are affected will be contacted directly by ARC. 
  • Copy any data and files that may be needed during maintenance to your local drive using Globus File Transfer before maintenance begins. 
  • Slurm email will be improved, providing  more detailed information about completed jobs.

Countdown to maintenance 

For Great Lakes HPC jobs, use the command “maxwalltime” to discover the amount of time remaining until maintenance begins. 

Jobs that request more walltime than remains until maintenance will automatically be queued and start once maintenance is complete. If the plan for Great Lakes maintenance is successful, any queued jobs will be able to run as usual (except for the SPGPU nodes as discussed above). Customers will be notified via email if downtime is required for Great Lakes.

Status updates and additional information

How can we help you?

For assistance or questions, please contact ARC at arc-support@umich.edu.

Nov 03 2022
0

Precision Health and ARC team up on a self-service tool for genetic research

By | Great Lakes, HPC, News

Encore is a self-serve genetic analysis tool that researchers can now run using a point-and-click interface without the need to directly manipulate the genetic data. Only a phenotype file is needed to build a GWAS model with SAIGE (genetics analysis software), launch and monitor job progress, and interactively explore results.

It is geared for a range of disciplines and specialties including biostatistics, epidemiology, neuroscience, gastroenterology, anesthesiology, clinical pharmacy, and bioinformatics.

The tool was developed at the U-M School of Public Health Center for Statistical Genetics and is managed by Precision Health and supported by ITS’s Advanced Research Computing (ARC).  

Brock Palen, ARC director, “When someone uses Encore they are actually running on Great Lakes, and we are happy to provide the computational performance behind Encore.”

Using Encore is easy. No coding, command-line/Linux knowledge is required to run GWAS in Encore. Researchers also do not need to have knowledge of batch job submission or scheduling, or have direct access to a high-performance computing cluster. Encore automatically prepares job submission scripts and submits the analysis to the Great Lakes High-Performance Computing Cluster. 

Great Lakes is the university’s flagship open-science high-performance computing cluster. It is much faster and more powerful than a laptop, and provides quicker answers and optimized support for simulation, genomics, machine learning, life science, and more. The platform provides a balanced combination of computing power, I/O performance, storage capability, and accelerators.

Visit the Encore wiki page to learn more

To get started, send an email to PHDataHelp@umich.edu

For questions about Great Lakes, contact arc-support@umich.edu

Feb 23 2022
0

New Resource Management Portal feature for Armis2 HPC Clusters

By | Armis2, HPC, News

Advanced Research Computing (ARC), a division of Information and Technology Services (ITS), has been developing a self-service tool called the Resource Management Portal (RMP) to give researchers and their delegates the ability to directly manage the IT research services they consume from ARC. 

Customers who use the Armis2 High-Performance Computing Cluster now have the ability to view their account information via the RMP, including the account name, resource limits (CPUs and GPUs), and the user access list.

“We are proud to be able to offer this tool for customers who use the HIPAA-certified Armis2 cluster,” said Brock Palen, ARC director. 

The RMP is a self-service-only user portal with tools and APIs for research managers, unit support staff, and delegates to manage their ARC IT resources. The RMP team is slowly adding capabilities over time. 

To get started or find help, contact arc-support@umich.edu.

Feb 16 2022
0

Understanding the strongest electromagnetic fields in the universe

By | Data, Great Lakes, HPC, Research, Uncategorized

Alec Thomas is part of the team from the U-M College of Engineering Gérard Mourou Center for Ultrafast Optical Science that is building the most powerful laser in the U.S.

Dubbed “ZEUS,” the laser will be 3-petawatts of power. That’s a ‘3’ with 15 zeros. All the power generated in the entire world is 10-terawatts, or 1000 times less than the ZEUS laser. 

The team’s goal is to use the laser to explore how matter behaves in the most extreme electric and magnetic fields in the universe, and also to generate new sources of radiation beams, which may lead to developments in medicine, materials science, and national security. 

A simulation of a plasma wake.

This simulation shows a plasma wake behind a laser pulse. The plasma behaves like water waves generated behind a boat. In this image, the “waves” are extremely hot plasma matter, and the “boat” is a short burst of powerful laser light. (Image courtesy of Daniel Seipt.)

“In the strong electric fields of a petawatt laser, matter becomes ripped apart into a `plasma,’ which is what the sun is made of. This work involves very complex and nonlinear physical interactions between matter particles and light. We create six-dimensional models of particles to simulate how they might behave in a plasma in the presence of these laser fields to learn how to harness it for new technologies. This requires a lot of compute power,” Thomas said. 

That compute power comes from the Great Lakes HPC cluster, the university’s fastest high-performance computing cluster. The team created equations to solve a field of motion for each six-dimensional particle. The equations run on Great Lakes and help Thomas and his team to learn how the particle might behave within a cell. Once the field of motion is understood, solutions can be developed. 

“On the computing side, this is a very complex physical interaction. Great Lakes is designed to handle this type of work,” said Brock Palen, director of Advanced Research Computing, a division of Information and Technology Services. 

Thomas has signed up for allocations on the Great Lakes HPC cluster and Data Den storage. “I just signed up for the no-cost allocations offered by the U-M Research Computing Package. I am planning to use those allocations to explore ideas and concepts in preparation for submitting grant proposals.”

Learn more and sign up for the no-cost U-M Research Computing Package (UMRCP).

Prof. Thomas’ work is funded by a grant from the National Science Foundation.

Sep 01 2021
0

No-cost research computing allocations now available

By | HPC, News, Research, Systems and Services, Uncategorized

U-M Research Computing PackageResearchers on all university campuses can now sign up for the U-M Research Computing Package, a new package of no-cost supercomputing resources provided by Information and Technology Services.

As of Sept. 1, university researchers have access to a base allocation for 80,000 CPU hours of high-performance computing and research storage services at no cost. This includes 10 terabytes of high-speed and 100 terabytes of archival storage.

These base allocations will meet the needs of approximately 75 percent of current high-performance-computing users and 90 percent of current research storage users. Researchers must sign up on ITS’s Advanced Research Computing website to receive the allocation.

“With support from President (Mark) Schlissel and executive leadership, this initiative provides a unified set of resources, both on campus and in the cloud, that meet the needs of the rich diversity of disciplines. Our goal is to encourage the use, support and availability of high-performance computing resources for the entire research community,” said Ravi Pendse, vice president for information technology and chief information officer.

The computing package was developed to meet needs across a diversity of disciplines and to provide options for long-term data management, sharing and protecting sensitive data, and more competitive cost structures that give faculty and research teams more flexibility to procure resources on short notice.

“It is incredibly important that we provide our research community with the tools necessary so they can use their experience and expertise to solve problems and drive innovation,” said Rebecca Cunningham, vice president for research and the William G. Barsan Collegiate Professor of Emergency Medicine. “The no-cost supercomputing resources provided by ITS and Vice President Pendse will greatly benefit our university community and the countless individuals who are positively impacted by their research.”

Ph.D. students may qualify for their own UMRCP resources depending on who is overseeing their research and their adviser relationship. Students should consult with their Ph.D. program administrator to determine their eligibility. ITS will confirm this status when a UMRCP request is submitted.

Undergraduate and master’s students do not currently qualify for their own UMRCP, but they can be added as users or administrators of another person’s UMRCP. Students can also access other ITS programs such as Great Lakes for Course Accounts, and Student Teams.

“If you’re a researcher at Michigan, these resources are available to you without financial impact. We’re going to make sure you have what you need to do your research. We’re investing in you as a researcher because you are what makes Michigan Research successful,” Brock Palen, Advanced Research Computing director.

Services that are needed beyond the base allocation provided by the UMRCP are available at reduced rates and are automatically available for all researchers on the Ann Arbor, Dearborn, Flint and Michigan Medicine campuses.

More Information