Jon Calhoun

2020

Einar Horn, Dakota Fulp, Jon Calhoun, and Luke Olson (2020): FaultSight: A Fault Analysis Tool for HPC Researchers, Institute of Electrical & Electronics Engineers, 2019 IEEE/ACM 9th Workshop on Fault Tolerance for HPC at eXtreme Scale (FTXS), pp21-30, Denver, Colorado, U.S.A. (held in conjunction with SC '19)

2019

Jon Calhoun, Franck Cappello, Luke N. Olson, Marc Snir, and William D. Gropp (2019): Exploring the Feasibility of Lossy Compression for PDE Simulations, International Journal of High Performance Computing Applications, SAGE Publications, Vol 33, Num 2, pp397-410

2017

Jon Cameron Calhoun (2017): From detection to optimization: impact of soft errors on high-performance computing applications, University of Illinois at Urbana-Champaign, Illinois Digital Environment for Access to Learning and Scholarship, Vol Doctoral dissertation
Jon Calhoun, Marc Snir, Luke N. Olson, and William D. Gropp (2017): Towards a More Complete Understanding of SDC Propagation, ACM Press, Proceedings of the 26th International Symposium on High-Performance Parallel and Distributed Computing (HPDC '17), pp131, Washington, D.C., U.S.A.

2015

Jon Calhoun, Marc Snir, Luke Olson, and Maria Garzaran (2015): Understanding the Propagation of Error Due to a Silent Data Corruption in a Sparse Matrix Vector Multiply, Institute of Electrical & Electronics Engineers, 2015 IEEE International Conference on Cluster Computing, pp541-542, Chicago, Illinois, U.S.A.
J. Calhoun, L. Olson, M. Snir, and W. D. Gropp (2015): Towards a More Fault Resilient Multigrid Solver, Society for Computer Simulation International, HPC '15: Proceedings of the Symposium on High Performance Computing, pp1-8, Alexandria, Virginia, U.S.A.

2014

Jon Calhoun, Luke Olson, and Marc Snir (2014): FlipIt: An LLVM Based Fault Injector for HPC, Springer Science + Business Media, Lecture Notes in Computer Science: Euro-Par 2014, Parallel Processing Workshops, pp547-558, Porto, Portugal
Kris Beckwith, Seth Veitzer, Stephen F. McCormick, John W. Ruge, Luke N. Olson, and Jon C. Calhoun (2014): Fully-Implicit Ultrascale Physics Solvers and Application to Ion Source Modelling, Institute of Electrical & Electronics Engineers (IEEE), 2014 IEEE 41st International Conference on Plasma Sciences (ICOPS) held with 2014 IEEE International Conference on High-Power Particle Beams (BEAMS), pp1-8, Washington, D.C., U.S.A.

2017

Jon Calhoun (2017): Analyzing The Propagation of Soft-Error Corruption in HPC Applications, 2017 Blue Waters Annual Report, pp264-265

2016

Jon Calhoun (2016): Improving Checkpoint Restart with Lossy Compression, 2016 Blue Waters Annual Report, pp264-265
Jon Calhoun: Effect and Propagation of Silent Data Corruption in HPC Applications
Blue Waters Symposium 2015, May 12, 2015

HPC Wire taps work of two Blue Waters researchers


Dec 18, 2019

The trade journal HPC wire tapped Jon Calhoun and Luke Olson in its December 2019 report on notable new research on high-performance computing community and its related domains. In their paper, "FaultSight: A Fault Analysis Tool for HPC Researchers", the authors present a fault injection analysis tool that they claim can efficiently assist in analyzing HPC application reliability and resilience scheme effectiveness. Calhoun, a former Blue Waters graduate fellow who is an assistant professor at Clemson, and Olson, a professor at the University of Illinois at Urbana-Champaign, wrote the paper with Einar Horn and Dakota Fulp. "FaulrSight" was one of six papers presented at 2019 Workshop on Fault Tolerance for HPC at eXtreme Scale, which took place within the Supecomputing 2019 annual conference, better known as SC '19.


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Six PhD students from across the country selected as Blue Waters Graduate Fellows


Apr 28, 2014

Six outstanding computational science PhD students from across the country have been selected to receive the first Blue Waters Graduate Fellowships, which provide graduate students in diverse fields with substantial support and the opportunity to leverage the petascale power of NCSA’s Blue Waters supercomputer to advance their research. Over three years this fellowship program will award more than $1 million and nearly 30 million integer-core hours to support graduate research.


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