Suha Kayum
Saudi Aramco
Suha is an expert in High-Performance Computing (HPC) contributing to the development and optimization of Saudi Aramco's basin and reservoir simulators. Her novel work has led to the filing of several patents and publications.
Prior to that, Suha worked as a software engineer at Endgame Systems in Atlanta, USA where she processed big data using distributed and cloud computing technology and was a researcher at the Georgia Tech Research Institute during her graduate studies. Suha represents Saudi Aramco’s upstream research center when hosting VIP visitors, where she presents EXPEC ARC's strategy, vision and accomplishments. In addition, her involvement in the community through the Society of Petroleum Engineers (SPE) has been highlighted by her selection as the SPE Saudi Arabia Section's Young Professionals Chairperson for the 2018-2019 term and the SPE Subcommittee Co-chair for the International Petroleum Technology Conference 2020. Suha has been awarded the Emerging Leader Global Petroleum Show award and the SPE Regional Young Member Outstanding service award in 2019. She holds an MSc and BSc with highest honors in Electrical and Computer Engineering from the Georgia Institute of Technology.
Philippe Thierry
Intel Corporation
Philippe works in the Intel Codesign and Exascale pathfinding group. His main research activity is devoted to performance prediction at node and full system level including uncertainties quantification as well as application characterization. Before that he was leading the Intel Energy Engineering Team for profiling and tuning of HPC applications for current and future platforms. Philippe obtained a Ph.D. in Geophysics on seismic imaging from Paris School of Mines, France, where he has spent several years working on 3D prestack depth migration and High Performance Computing. Philippe also worked at SGI as benchmarking team leader before joining Intel Corp in Paris area.
David Keyes
KAUST
David Keyes is Professor of Applied Mathematics and Computational Science and the Director of the Extreme Computing Research Center at the King Abdullah University of Science and Technology (KAUST), having served as the founding Dean of the Division of Mathematical and Computer Sciences and Engineering from 2009 to 2012. He joined the Office of President Tony Chan in October 2018 as Senior Associate, with responsibilities for strategic planning and international partnerships.
Keyes is also an Adjunct Professor and former Fu Foundation ChairProfessor in Applied Physics and Applied Mathematicsat Columbia University, and a faculty affiliate ofseveral laboratories of the U.S. Department of Energy.He graduated summa cum laude in Aerospace andMechanical Sciences with a certificate in Engineering Physics from Princeton in 1978,and earned a doctorate in Applied Mathematics from Harvard in 1984.
Keyes works at the algorithmic interface between parallel computing and thenumerical analysis of partial differential equations (PDEs), with a focus on implicitscalable solvers for power-austere emerging architectures and their use in the manylarge-scale applications governed by PDEs in energy and environment that demandhigh performance because of resolution, dimension, high fidelity physical models, orthe “multi-solve” requirements of optimization, control, sensitivity analysis, inverseproblems, data assimilation, or uncertainty quantification. Newton-Krylov-Schwarz(NKS, 1994), Additive Schwarz Preconditioned Inexact Newton (ASPIN, 2002), andAlgebraic Fast Multipole (AFM, 2014) methods are methods he co-introduced andcontinues to develop.
Keyes was awarded an NSF Presidential Young Investigator Award as an Assistant Professor of Mechanical Engineering at Yale University in 1989. For his algorithmic influence in scientific simulation, Keyes has been recognized as a Fellow of the Society for Industrial and Applied Mathematics (SIAM), a Fellow of the American Mathematical Society (AMS), and a Fellow of the American Association for the Advancement of Science (AAAS). He shared the Gordon Bell Prize of the ACM in 1999.He received the Sidney Fernbach Award of the IEEE Computer Society in 2007.Author or editor of more than a dozen U.S. federal agency reports and member of several federal advisory committees on computational science and engineering andhigh performance computing, in 2011, Keyes received the SIAM Prize for Distinguished Service to the Profession.
Robert Sutor
IBM Research
I’m Bob Sutor and I’ve been a technical executive in the IT industry for over 30 years. More than two decades of that have been spent in IBM Research. I’ve also spent time on the software side of the business and looking after open source and standards. I’m a mathematician by training and I have a Ph.D. from Princeton University and an undergraduate degree from Harvard College. I’ve been coding since I was 15 and have used most of the programming languages that have come along. My current favorite is Python 3.
My primary goal throughout my career has been to drive technology that has a positive impact on society. In addition to internal IBM leadership and executive positions and the occasional external activity mostly during my standards days, I don’t think we can change the industry with technology unless we explain it and its value in understandable terms. That’s why I spend so much time talking about tech: what is it, how does it relate to things we already do, how and when will it affect us, and what are the pros and cons.
I don’t like hype but I love passion. The two are easily confused unless you can back up what you say with real results. Sure, talk about your roadmap but don’t make promises you can’t keep.
I’m currently working on a book about quantum computing in addition to my leadership role within the IBM Q quantum computing program.
Areas in which I’ve worked: quantum computing, AI, blockchain, mathematics and mathematical software, Linux, open source, standards management, product management and marketing, computer algebra, web standards.
Here’s the sort of embarrassing blurb you can find on my LinkedIn profile:
Innovative leader and technologist with strong experience in quantum computing, AI, blockchain, analytics, data science, mobile apps and technologies, cloud, social media, open source, and industrial research. A strategic and operational executive with a demonstrated ability to transform his company and the IT industry around leading edge technologies.
A persuasive, global professional with an international reputation as a thought leader in emerging technologies. An inspiring communicator with exceptional presentation skills and the ability to help others understand deeply technical topics and how they will help drive significant innovation in the future.
Felix J. Herrmann
Georgia Institute of Technology
Felix J. Herrmann graduated from Delft University of Technology in 1992 and received in 1997 a Ph.D. in engineering physics (DELPHI Consortium) from that same institution. After research positions at Stanford University and the Massachusetts Institute of Technology (Earth Resources Laboratory), he joined the faculty of the University of British Columbia in 2002 where he is now affiliate professor.
Since 2017, he is cross-appointed at the Schools of Earth & Atmospheric Sciences, Computational Science & Engineering, and Electrical & Computer Engineering of the Georgia Institute of Technology. His research program spans several areas of computational exploration seismology including economic and low-environmental impact (time-lapse) acquisition with compressive sensing, data processing, and wave-equation-based imaging and inversion. He was among the first to recognize the importance of curvelet transforms, compressive sensing, and large-scale (convex) optimization addressing problems involving simultaneously acquired/blended (time-lapse) data with surface-related multiples. He developed curvelet-based denoising and matched filtering methods that are now widely used by industry. He also made several contributions to full-waveform inversion and (least-squares) reverse-time migration by introducing concepts from stochastic and constrained optimization designed to produce high-fidelity results at lower costs. More recently, he has been involved in developing rank minimization techniques for seismic data acquisition, in the development of a domain-specific language for finite differences called Devito, and in the application of deep convolutional neural nets to seismic data processing and inversion. To drive innovations within industry, he started in 2004 SINBAD, a research consortium responsible for several major breakthroughs resulting in tangible efficiency improvements in industrial data acquisition and full-waveform inversion. At Georgia Tech, he vows to continue these activities by setting up a new research consortium with a focus on machine learning. He serves as deputy editor for Geophysical Prospecting and is a Georgia Research Alliance eminent scholar.