CS Students Compete in Cluster Challenge |
From November 10 through November 16, 2012, five Computer Science students will participate in the Student Cluster Competition at SC12 in Salt Lake City, Utah. The competition featured small teams that compete to harness the incredible power of current-generation cluster hardware. In a real-time challenge, teams of six undergraduate and/or high school students build a small cluster of their own design on the SC exhibit floor and race to demonstrate the greatest sustained performance across a series of applications. The Purdue Cluster Challenge team was chosen as one of the eight to compete, and they take on teams from China amd around the United States. The CS majors on the team are seniors Cody Breedlove and Tyler Reid, juniors Andrew Huff and Ethan Madden, and sophomore Kurt Kroeger. They are joined by Nick Molo, a junior in Computer Engineering. Huff and Reid are each competing for the second year in a row. The article "This Purdue team is super - at computing" by ITaP science and technology writer Greg Kline is reprinted below.
WEST LAFAYETTE, Ind. - Whether it's developing new cancer treatments or tracking down the particles that make up the universe, not to mention powering Amazon or iTunes, Nick Molo knows high-performance computing is now an essential component. So the Purdue junior in computer engineering figures experience on a team of students building and running their own supercomputer in an international competition can't help but enhance his prospects, even if it means keeping long hours this semester and a few sleepless nights. Molo is part of the six-member Purdue team competing in the 2012 Cluster Challenge, the student competition at SC12, the world's largest supercomputing conference. The conference is Nov. 10-16 in Salt Lake City. The Purdue team, one of just eight selected, will be competing against teams from China and around the United States. Purdue's entry is the only one from the Big Ten and the Midwest. "My short-term goal is to get a good job after graduation that would potentially pay for me to go back to school to further my education," says Molo, from Joilet, Ill. "The Cluster Challenge already has given me a leg up on the competition. It gives me a great talking point on my resume while also being a great learning experience." The other team members are Cody Breedlove, a senior in computer science from Royal Center, Ind.; Andrew Huff, a junior in computer science from Cary, N.C.; Kurt Kroeger, a sophomore in computer science from Nashville, Tenn.; Ethan Madden, a junior in computer science from Newburgh, Ind.; and Tyler Reid, a senior in computer science from Zionsville, Ind. Stephen Harrell and Andy Howard, staff members for Information Technology at Purdue (ITaP), Purdue's central information technology organization, are advising the team. ITaP and HP are team sponsors. SC12 also is a showcase for Purdue-developed technologies to advance groundbreaking research in science, engineering and other fields. That includes the new open source version of HUBzero, a ready-made software platform for research and education that makes it possible to access powerful computational tools right from a Web browser. More than 40 virtual communities use HUBzero already in fields ranging from nanotechnology and health care to earthquake engineering and the bonds between human and companion animals. Other Purdue technologies being showcased at SC12 range from a tool for projecting the impact of land use changes like urban growth on water supplies to a Web-based version of BLAST, software widely used in studying DNA and other biological building blocks. With 128 processors, about 30 to 60 times more than a typical personal computer, the student supercomputer is a mini version of Purdue's new Carter cluster supercomputer. Carter, with more than 10,000 processors, is among the top 100 most powerful academic supercomputers in the world. Researchers in aeronautics and astronautics; earth, atmospheric and planetary sciences; economics; genomics; and more use Carter. With 160 of the Intel's processors inside, 40 times more than a typical personal computer, the supercomputer built by the students is akin to a mini version of Purdue's newest community cluster, called Hansen, which ITaP completed in September. Faculty researchers in earth and atmospheric sciences, chemistry, physics, computer science, aeronautics and astronautics, electrical and computer engineering and materials engineering use Hansen. Likewise, the Cluster Challenge teams - limited to undergraduates - must run an assigned selection of real research software to crunch large sets of sample data as quickly and efficiently as possible. The 2012 applications simulate atoms, model the global climate, probe physics at the very small level and predict the spread of contaminants underground. Members of Purdue's team help operate Carter as student workers for ITaP. The Cluster Challenge is an opportunity to learn more about the software faculty researchers run on the supercomputer and to experience supercomputing from a user's perspective. "I've always wondered what types of programs researchers use and what their function is," Kroeger says. "The Cluster Challenge has allowed me to work on many different applications." Harrell sees that as one of the benefits the students get from being on the team. "I think educationally I'd really like them to whet their appetites for computational science," he says. "To me it's a pretty amazing thing when you think about it, modeling very tiny things or very large things or very hot things. I'd like them to share some of that excitement and maybe consider it as a career." During the competition, the students share the load monitoring and adjusting their supercomputer around the clock as they work to process as much data as possible over 48 hours. The prospect of losing a little sleep doesn't faze Reid, who also was on Purdue's 2011 team. "I wanted to participate in the Cluster Challenge again because it was an awesome experience," Reid says. "I really enjoyed meeting the students on the other teams and other people interested in high-performance computing, and I hope to get a job in the high-performance computing industry, or in an industry where I can continue to work on something I'm passionate about." |
