Purdue researchers win $14.5 million NSF grant to take nanoHUB.org to next level

February 5, 2013  


nanoHUB users

Nearly 250,000 users participate in nanoHUB, an online meeting place for simulation, research, collaboration, teaching, learning and publishing. The red dots indicate users of online lectures, seminars, courses and teaching materials, while yellow dots indicate simulation users. (Photo illustration by Office of the Vice President for Research)
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WEST LAFAYETTE, Ind. - Purdue University researchers have received a five-year $14.5 million National Science Foundation grant to expand its widely used nanoHUB.org online science and engineering gateway.

The Purdue-led Cyber Platform, a part of the Network for Computational Nanotechnology (NCN), will assist researchers across the globe by developing a virtual society that shares simulation software, data and other innovative content to provide engineers and scientists with the fundamental knowledge required to advance nanoscience into nanotechnology.

"Thousands of times a day the leading researchers 'come' to Purdue through the globally unique tool of nanoHUB," Purdue President Mitch Daniels said Tuesday (Feb. 5) in announcing the grant. "The new NSF investment is an affirmation of the brilliance of nanoHUB's Purdue creators and of its worldwide scientific significance."

Mitch Daniels

Mitch Daniels
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Annually, nearly 250,000 users in 172 countries participate in nanoHUB, an online meeting place for simulation, research, collaboration, teaching, learning and publishing. The nanoHUB provides a library of 267 simulation tools, free from the limitations of running software locally, used in the scientific computing cloud by more than 12,000 people every year.

The Internet-based initiative provides 3,000 resources from more than 1,000 authors for research and education in the areas of nanoelectronics and nanoelectromechanical systems and their application to nano-biosystems. The nanoHUB menu also includes courses, tutorials, seminars, discussions and facilities to foster nano-research collaboration, including the Birck Nanotechnology Center in Purdue's Discovery Park.

Through Cyber Platform developments and community engagement efforts, the nanoHUB in its next phase is designed to:

* Accelerate research by transforming nanoscience to nanotechnology through the integration of simulation with experimental data.

* Inspire and educate the next-generation nanoscience and nanotechnology workforce.

* Expand the nanoHUB society that uses and shares content on the Web-based portal.

Gerhard Klimeck

Gerhard Klimeck
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"Our long-term vision for the Cyber Platform is to use the nanoHUB as an online nano society that researchers, practitioners, educators and students depend on daily," said Purdue electrical and computer engineering professor Gerhard Klimeck, principal investigator of the Purdue-led Cyber Platform. "At the same time, we are excited about how this tool has extended into professional practice as a computational resource for a multidisciplinary culture of innovation grounded in cloud services-enabled workflows."

Joining Klimeck on the Cyber Platform team at Purdue are co-principal investigators Krishna Madhavan, Michael McLennan, Lynn Zentner and Michael Zentner. For the NSF abstract, go to http://www.nsf.gov/awardsearch/showAward?AWD_ID=1227110&HistoricalAwards=false

The nanoHUB has become the first broadly successful, cloud-computing environment for research across multiple disciplines, with more than 960 citations in scientific literature and 8,000 secondary citations, with nearly one-third of those papers involving experimental data. It also has evolved well beyond online simulation for research.

From New York to London and Moscow to Madrid, more than 14,000 students in 760 formal classes at 185 institutions have used nanoHUB simulations for classroom teaching, homework and projects. The nanoHUB also provides a library of 3,000 learning materials.

"Most of these tools are adopted for formal education in six months, compared with the 3.8 years it takes for the release of new college textbook editions," Klimeck said.

NCN founding director Mark Lundstrom, the Don and Carol Scifres Distinguished Professor of Electrical and Computer Engineering at Purdue, said a key part of the Cyber Platform project is to engage an ever-larger and more diverse cyber community that shares novel, high-quality nanoscale computation and simulation research and educational resources.

"The reason we created the nanoHUB cyberinfrastructure 10 years ago was to connect those who are doing simulation with experimental collaborators," Lundstrom said. "Today, it's called cloud computing."

Based in Discovery Park, Purdue's primary interdisciplinary research complex, the Cyber Platform team hopes to accelerate the transformation of nanoscience to nanotechnology through the integration of simulation with experimental data.

Lundstrom said the project will focus on developing open-source software to stimulate data sharing and inspire and educate the next-generation workforce. A key goal is to create communities in the nano-related areas of manufacturing, informatics, and environmental health and safety.

"Despite a decade of success in nanotechnology research and education, significant gaps remain because work is still performed by isolated individuals and small groups," Lundstrom said. "This fragmentation by specialty hinders tool and data sharing across knowledge domains."

By partnering with professional societies and commercial publishers, Klimeck said nanoHUB is changing how researchers publish simulation results through novel interactive journals that reflect a user's workflow, link directly back to their data and open doors to more collaborators.

This approach will drive new content to the nanoHUB, establishing an efficient, one-stop shopping site for high-powered, nano-related research simulations, he said. NCN also has developed processes for enabling researchers to rapidly deploy their research codes and innovative tutorials and classes on nanoHUB.

"To date, these processes harvested research and educational results from more than 1,000 contributors worldwide," Klimeck said. "Expansion into new areas of nano research and education - including precollege education - represent a huge growth potential for nanoHUB that goes beyond simulation to embracing data management, search and exploration."

With NSF funding, Purdue launched NCN in 2002 with a five-year, $10.5 million grant to advance nanoscience toward nanotechnology via online simulations on nanoHUB.org. The NSF funding was distributed among six partner universities to seed the infrastructure creation and develop the nanoHUB content.

Today, NSF is funding Purdue for the operation and advancement of this national nanotechnology infrastructure. Two other independent NSF grants, each at a level of $3.5 million to Purdue and the University of Illinois, Urbana Champaign, will advance nanoelectronic and nano-bioengineering while using nanoHUB to engage a global community. The resulting NCN is now funded at a level of $21.9 million for five years.

Writer: Phillip Fiorini, 765-496-3133, pfiorini@purdue.edu

Sources: Mitch Daniels, president@purdue.edu

Gerhard Klimeck, 765-494-9212, gekco@purdue.edu

Mark Lundstrom, 765-494-3515, lundstro@purdue.edu

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