Duraisamy will lead the Michigan Institute for Computational Discovery and Engineering | Jobs Vox


Karthik Duraisamy, an aerospace engineer who specializes in the development of theory and algorithms for computational modeling of complex physical systems, will lead the Michigan Institute for Computational Discovery and Engineering as its new director.

His three-year appointment begins January 1.

Karthik Duraisamy
Karthik Duraisamy

The Office of the Vice President for Research launched MICDE in 2013, and since its inception, the Institute has solidified the University of Michigan as a national leader in computational science and research.

As director, Duraisamy will lead efforts in the development and innovative use of mathematical algorithms and models on high-performance computers, with the ultimate goal of supporting basic and applied research and development across a broad spectrum of disciplines in science and engineering.

“I am honored to have the opportunity to lead MICDE, especially at a time when so many new and exciting ideas are emerging in computational science,” said Duraisamy, professor of aerospace engineering in the College of Engineering.

“I look forward to working with the incredible talent present at UM to expand the frontiers of computational science, and to more firmly establish the role of computing in solving the Grand Challenge problems facing humanity.” I am.”

Duraisamy holds a Ph.D. in aerospace engineering from the University of Maryland, and he joined UM in 2013 as an assistant professor of aerospace engineering. That same year, he worked with colleagues at UM to help launch MICDE.

Duraisamy has served as associate director of MICDE since 2016, working closely with Krishna Garikipati, who will step down this month after a six-year stint as institute director. Under Garikipati’s leadership, the depth and breadth of research and teaching in computational science expanded greatly.

Under Garikipati’s direction, MICDE has enabled the establishment of research centers focused on data-driven computational physics, scientific software, and network/storage-enabled computing.

These centers and other influential work, such as the search for ways to control tobacco use using computational science, were funded by significant federal and industry grants secured by MICDE. The institute has catalyzed more than 25 research projects in areas ranging from quantum computing and cancer modeling to galaxy formation and climate modeling.

Duraisamy will retain his faculty role in the College of Engineering, and will continue to direct the university’s Ph.D. in Scientific Computing program, which MICDE has overseen since 2013. During Garikipati’s tenure as Institute director, enrollment in its Ph.D. grew the program from 20 to 150 students, with students in nine UM schools and colleges.

A broad topic in Duraisamy’s research involves the use of computational methods to answer scientific and engineering questions at a desired level of sophistication with an understanding of the effect of modeling uncertainties on predicted outcomes.

Duraisamy was the principal investigator of Conflux, a project that pioneered the development of a novel computing ecosystem designed to enable high-performance computing clusters to communicate seamlessly and at interactive speeds, especially with data-intensive operations. led development. He also directs the Air Force Center of Excellence, a multiuniversity research collaboration that aims to enable efficient prediction of volatility in liquid-fueled rocket combustion systems.

“The Michigan Institute for Computational Discovery and Engineering has become a model among our peer institutions for its ability to catalyze research and foster collaboration across a wide variety of disciplines,” said Rebecca Cunningham, vice president for research.

“The tremendous progress the Institute has displayed over the past nine years is a direct reflection of its talented faculty and staff, and I am confident that Professor Duraisamy will help this team grow to even greater success going forward.”



Source link

Implement tags. Simulate a mobile device using Chrome Dev Tools Device Mode. Scroll page to activate.