Four PhD Students Selected as Blue Waters Graduate Fellows

April 30, 2019

April 30, 2019 –Four Ph.D. students have been selected to receive Blue Waters Graduate Fellowships for 2019-2020. The fellowship program, now in its sixth year, provides substantial support and the opportunity for early career researchers to leverage the sustained petascale performance of the Blue Waters supercomputer at the National Center for Supercomputing Applications (NCSA) at the University of Illinois at Urbana-Champaign to advance their research.

By incorporating high-performance computing and data analysis, these students will significantly advance their research across a variety of disciplines. The selected applications were deemed to be excellent candidates for utilizing the Blue Waters resources and services.

“The Blue Waters Fellowship program provides aspiring and innovative young researchers with the essential resources to conduct research on complex science and engineering problems at a scale that they may not otherwise be able to pursue. The fellows will be provided with access to funding, an allocation of time on the Blue Waters supercomputer, and the expert advice from the Blue Waters professional staff to help make their use of Blue Waters effective. The fellows will be empowered to accelerate their research goals. We have been extremely proud of the accomplishments of the fellows in this unique NSF funded program. ” says Bill Kramer, Blue Waters Director. “We are happy that past fellows have had so much success and we will focus our efforts on ensuring that this new cadre of fellows excels in their computational research.”

To assess the long-term impact of the program on their professional careers, the progress of all previous fellows is tracked, and the fellows are provided with access to the Blue Waters system until they complete their Ph.D.

“[We’re] able to go in a very different direction [since Blue Waters] because it’s almost unprecedented to run the kind of biogeochemical model that we want to run at this resolution,” An advisor of a previous fellow stated. “That’s going to turn out to provide the dataset that other researchers will use.”

According to one of the past fellows, the fellowship with access to Blue Waters “let me tackle science questions that I couldn’t if I didn’t have the fellowship.” Another said the Blue Waters fellowship “literally changed my life.”

Since its inception, this program continues to be assessed by an independent evaluation team lead by Lizanne DeStefano, Executive Director at Georgia Tech’s Center for Education Integrating Science, Mathematics and Computing.

“The impact data suggest that the Blue Waters Fellows program is transformational, producing a new generation of scientists who are experts in both their discipline and in the use of high-performance computing,” said DeStefano. “Their research not only offers significant contributions to the disciplinary knowledge base, but produces computational tools and data which elevate the research capacity of the fellows as a whole.”

The 2019-2020 fellows:

  • Forrest Glines, Michigan State University, will study magnetohydrodynamic simulations of galaxies.
  • Josh Lansford, University of Delaware, will focus on electron density-based machine learning for accelerating quantum calculations.
  • Nicole Rosato, Rochester Institute of Technology, will address improved gauge conditions for binary black hole simulations.
  • Micheline Soley, Harvard University, will research the ultracold KRb dimer reaction.

The fellows will receive a year of support to advance their research, including a tuition allowance, a substantial stipend, an allocation of time on the Blue Waters system, and funds to support travel to the annual Blue Waters Symposium.

Blue Waters is one of the most powerful supercomputers in the world, and is the fastest supercomputer on a university campus, with more aggregate memory and data capabilities than any other openly available resource. Scientists and engineers across the country use the computing and data power of Blue Waters to tackle a wide range of challenging problems, from predicting the behavior of complex biological systems to simulating the evolution of the cosmos. Blue Waters is supported by the National Science Foundation (NSF) and the National Center for Supercomputing Applications (NCSA) at the University of Illinois.

Blue Waters is supported by the National Science Foundation through awards ACI-0725070 and ACI-1238993.

About NCSA

The National Center for Supercomputing Applications (NCSA) at the University of Illinois at Urbana-Champaign provides supercomputing and advanced digital resources for the nation’s science enterprise. At NCSA, University of Illinois faculty, staff, students, and collaborators from around the globe use advanced digital resources to address research grand challenges for the benefit of science and society. NCSA has been advancing one third of the Fortune 50® for more than 30 years by bringing industry, researchers, and students together to solve grand challenges at rapid speed and scale.


Source: NCSA

Subscribe to HPCwire's Weekly Update!

Be the most informed person in the room! Stay ahead of the tech trends with industy updates delivered to you every week!

ISC21 Cluster Competition Bracketology

June 18, 2021

For the first time ever, cluster competition experts have gathered together for an actual seeding reveal for the ISC21 Student Cluster Competition. What’s this, you ask? It’s where bona fide student cluster competi Read more…

OSC Enables On-Demand HPC for Automotive Engineering Firm

June 18, 2021

In motorsports, vehicle designers are constantly looking for the tiniest sliver of time to shave off through some clever piece of engineering – but as the low-hanging fruit gets snatched up, those advances are getting Read more…

PNNL Researchers Unveil Tool to Accelerate CGRA Development

June 18, 2021

Moore’s law is in decline due to the physical limits of transistor chips, putting an expiration date on a hitherto-perennial exponential trend in computing power – and leaving hardware developers scrambling to contin Read more…

TU Wien Announces VSC-5, Austria’s Most Powerful Supercomputer

June 17, 2021

Austria is getting a new top supercomputer: VSC-5, the latest iteration of the Vienna Scientific Cluster. The news was announced by VSC-5’s soon-to-be home, TU Wien (also known as the Vienna University of Technology). Read more…

Supercomputing Helps Advance Hydrogen Energy Research

June 16, 2021

Hydrogen energy has long remained an elusive target of the renewable energy industry, promising clean, carbon-free energy that would allow for rapid refueling, unlike current battery-based electric vehicles. Hydrogen-bas Read more…

AWS Solution Channel

Accelerating research and development for new medical treatments

Today, more than 290,000 researchers in France are working to provide better support and care for patients through modern medical treatment. To fulfill their mission, these researchers must be equipped with powerful tools. Read more…

FF4EuroHPC Initiative Highlights Results of First Open Call

June 16, 2021

EuroHPC is kicking into high gear, with seven of its first eight systems detailed – and one of them already operational. While the systems are, perhaps, the flashiest endeavor of the European Commission’s HPC effort, Read more…

TU Wien Announces VSC-5, Austria’s Most Powerful Supercomputer

June 17, 2021

Austria is getting a new top supercomputer: VSC-5, the latest iteration of the Vienna Scientific Cluster. The news was announced by VSC-5’s soon-to-be home, T Read more…

Catching up with ISC 2021 Digital Program Chair Martin Schulz

June 16, 2021

Leibniz Research Centre (LRZ)’s content creator Susanne Vieser interviews ISC 2021 Digital Program Chair, Prof. Martin Schulz to gain an understanding of his ISC affiliation, which is outside his usual scope of work at the research center and the Technical University of Munich. Read more…

Intel Debuts ‘Infrastructure Processing Unit’ as Part of Broader XPU Strategy

June 15, 2021

To boost the performance of busy CPUs hosted by cloud service providers, Intel Corp. has launched a new line of Infrastructure Processing Units (IPUs) that take Read more…

ISC Keynote: Glimpse into Microsoft’s View of the Quantum Computing Landscape

June 15, 2021

Looking for a dose of reality and realistic optimism about quantum computing? Matthias Troyer, Microsoft distinguished scientist, plans to do just that in his ISC2021 keynote in two weeks – Quantum Computing: From Academic Research to Real-world Applications. He notes wryly that classical... Read more…

A Carbon Crisis Looms Over Supercomputing. How Do We Stop It?

June 11, 2021

Supercomputing is extraordinarily power-hungry, with many of the top systems measuring their peak demand in the megawatts due to powerful processors and their c Read more…

Honeywell Quantum and Cambridge Quantum Plan to Merge; More to Follow?

June 10, 2021

Earlier this week, Honeywell announced plans to merge its quantum computing business, Honeywell Quantum Solutions (HQS), which focuses on trapped ion hardware, Read more…

ISC21 Keynoter Xiaoxiang Zhu to Deliver a Bird’s-Eye View of a Changing World

June 10, 2021

ISC High Performance 2021 – once again virtual due to the ongoing pandemic – is swiftly approaching. In contrast to last year’s conference, which canceled Read more…

Xilinx Expands Versal Chip Family With 7 New Versal AI Edge Chips

June 10, 2021

FPGA chip vendor Xilinx has been busy over the last several years cranking out its Versal AI Core, Versal Premium and Versal Prime chip families to fill customer compute needs in the cloud, datacenters, networks and more. Now Xilinx is expanding its reach to the booming edge... Read more…

AMD Chipmaker TSMC to Use AMD Chips for Chipmaking

May 8, 2021

TSMC has tapped AMD to support its major manufacturing and R&D workloads. AMD will provide its Epyc Rome 7702P CPUs – with 64 cores operating at a base cl Read more…

Intel Launches 10nm ‘Ice Lake’ Datacenter CPU with Up to 40 Cores

April 6, 2021

The wait is over. Today Intel officially launched its 10nm datacenter CPU, the third-generation Intel Xeon Scalable processor, codenamed Ice Lake. With up to 40 Read more…

Berkeley Lab Debuts Perlmutter, World’s Fastest AI Supercomputer

May 27, 2021

A ribbon-cutting ceremony held virtually at Berkeley Lab's National Energy Research Scientific Computing Center (NERSC) today marked the official launch of Perlmutter – aka NERSC-9 – the GPU-accelerated supercomputer built by HPE in partnership with Nvidia and AMD. Read more…

Google Launches TPU v4 AI Chips

May 20, 2021

Google CEO Sundar Pichai spoke for only one minute and 42 seconds about the company’s latest TPU v4 Tensor Processing Units during his keynote at the Google I Read more…

CERN Is Betting Big on Exascale

April 1, 2021

The European Organization for Nuclear Research (CERN) involves 23 countries, 15,000 researchers, billions of dollars a year, and the biggest machine in the worl Read more…

Iran Gains HPC Capabilities with Launch of ‘Simorgh’ Supercomputer

May 18, 2021

Iran is said to be developing domestic supercomputing technology to advance the processing of scientific, economic, political and military data, and to strengthen the nation’s position in the age of AI and big data. On Sunday, Iran unveiled the Simorgh supercomputer, which will deliver.... Read more…

HPE Launches Storage Line Loaded with IBM’s Spectrum Scale File System

April 6, 2021

HPE today launched a new family of storage solutions bundled with IBM’s Spectrum Scale Erasure Code Edition parallel file system (description below) and featu Read more…

Quantum Computer Start-up IonQ Plans IPO via SPAC

March 8, 2021

IonQ, a Maryland-based quantum computing start-up working with ion trap technology, plans to go public via a Special Purpose Acquisition Company (SPAC) merger a Read more…

Leading Solution Providers

Contributors

10nm, 7nm, 5nm…. Should the Chip Nanometer Metric Be Replaced?

June 1, 2020

The biggest cool factor in server chips is the nanometer. AMD beating Intel to a CPU built on a 7nm process node* – with 5nm and 3nm on the way – has been i Read more…

AMD Launches Epyc ‘Milan’ with 19 SKUs for HPC, Enterprise and Hyperscale

March 15, 2021

At a virtual launch event held today (Monday), AMD revealed its third-generation Epyc “Milan” CPU lineup: a set of 19 SKUs -- including the flagship 64-core, 280-watt 7763 part --  aimed at HPC, enterprise and cloud workloads. Notably, the third-gen Epyc Milan chips achieve 19 percent... Read more…

Julia Update: Adoption Keeps Climbing; Is It a Python Challenger?

January 13, 2021

The rapid adoption of Julia, the open source, high level programing language with roots at MIT, shows no sign of slowing according to data from Julialang.org. I Read more…

Can Deep Learning Replace Numerical Weather Prediction?

March 3, 2021

Numerical weather prediction (NWP) is a mainstay of supercomputing. Some of the first applications of the first supercomputers dealt with climate modeling, and Read more…

GTC21: Nvidia Launches cuQuantum; Dips a Toe in Quantum Computing

April 13, 2021

Yesterday Nvidia officially dipped a toe into quantum computing with the launch of cuQuantum SDK, a development platform for simulating quantum circuits on GPU-accelerated systems. As Nvidia CEO Jensen Huang emphasized in his keynote, Nvidia doesn’t plan to build... Read more…

Microsoft to Provide World’s Most Powerful Weather & Climate Supercomputer for UK’s Met Office

April 22, 2021

More than 14 months ago, the UK government announced plans to invest £1.2 billion ($1.56 billion) into weather and climate supercomputing, including procuremen Read more…

African Supercomputing Center Inaugurates ‘Toubkal,’ Most Powerful Supercomputer on the Continent

February 25, 2021

Historically, Africa hasn’t exactly been synonymous with supercomputing. There are only a handful of supercomputers on the continent, with few ranking on the Read more…

The History of Supercomputing vs. COVID-19

March 9, 2021

The COVID-19 pandemic poses a greater challenge to the high-performance computing community than any before. HPCwire's coverage of the supercomputing response t Read more…

  • arrow
  • Click Here for More Headlines
  • arrow
HPCwire