Diana Marculescu is Department Chair, Cockrell Family Chair for Engineering Leadership #5, and Professor, Motorola Regents Chair in Electrical and Computer Engineering #2, at the University of Texas at Austin.

Prior to joining UT Austin in December 2019, she was the David Edward Schramm Professor of Electrical and Computer Engineering, the Founding Director of the College of Engineering Center for Faculty Success (2015-2019) and has served as Associate Department Head for Academic Affairs in Electrical and Computer Engineering (2014-2018), all at Carnegie Mellon University.

She received the Dipl.Ing. degree in computer science from the Polytechnic University of Bucharest, Bucharest, Romania (1991), and the Ph.D. degree in computer engineering from the University of Southern California, Los Angeles, CA (1998). Her research interests include energy- and reliability-aware computing, hardware aware machine learning, and computing for sustainability and natural science applications.

Diana was a recipient of the National Science Foundation Faculty Career Award (2000-2004), the ACM SIGDA Technical Leadership Award (2003), the Carnegie Institute of Technology George Tallman Ladd Research Award (2004), and several best paper awards. She was an IEEE Circuits and Systems Society Distinguished Lecturer (2004-2005) and the Chair of the Association for Computing Machinery (ACM) Special Interest Group on Design Automation (2005-2009). Diana chaired several conferences and symposia in her area and is currently an Associate Editor for IEEE Transactions on Computers. She was selected as an ELATE Fellow (2013-2014), and is the recipient of an Australian Research Council Future Fellowship (2013-2017), the Marie R. Pistilli Women in EDA Achievement Award (2014), and the Barbara Lazarus Award from Carnegie Mellon University (2018). Diana is a Fellow of ACM and IEEE.

McKee received her bachelor’s degree in Computer Science from Yale University, master’s from Princeton University, and doctorate from the University of Virginia. Her dissertation advisor was Bill Wulf, with whom she worked on memory systems architecture. Together they coined the now-common term the “memory wall” to describe a situation in which processors are always waiting on memory, and CPU performance is therefore entirely limited by memory performance.

Before graduate school, McKee worked for Digital Equipment Corporation and Microsoft Corporation. She has also held internships at Digital Equipment Corporation’s Systems Research Center (now HP Labs) and the former AT&T Bell Labs. McKee worked as a Post-Doctoral Research Associate in the University of Virginia Computer Science Department for a year after graduating (waiting for the chip to come back from fab) and as a Computer Architect at Intel’s Microcomputer Research Lab in Oregon for the next two years. During her time at Intel, she also taught at the Oregon Graduate Institute and Reed College. McKee was a Research Assistant Professor at the University of Utah’s School of Computing from 1998 to 2002, where she worked on the Impulse Adaptable Memory Controller project. She joined Cornell University’s Computer Systems Lab within the School of Electrical and Computer Engineering in 2002. She moved to the Department of Computer Science and Engineering at Chalmers University of Technology in 2008, and she became the C. Tycho Howle endowed chair within the Holcombe Department of Electrical and Computer Engineering at Clemson University in 2018. She spent the 2017 calendar year on sabbatical at Rambus Labs in Sunnyvale, CA.

Her research has historically focused mainly on analyzing application memory behavior and designing more efficient memory systems together with the software to exploit them. Achieving this broad objective requires developing new underpinnings for system understanding, and thus she and her students and collaborators have developed new approaches to performance analysis; built scalable tools for application analysis and system modeling; designed architectures to enable more comprehensive system introspection and analyses; designed efficient memory systems for HPC and embedded platforms; and automated memory optimizations for HPC applications.

Amila received her Bachelor's and Master's Degrees from the University of Sarajevo in Electrical Engineering within Computer Science and Informatics Department in 2006, 2009, respectively. In academic year 2007/2008 she received Fulbright Visiting Student Award and joined Embedded Systems and Architectures Lab at University California, Riverside as Junior Researcher. In 2010, she spent 1 month at Faculty of Electrical Engineering, University of Ljubljana as a visiting academic. Then, she received MEXT scholarship in 2010 and spend 3 and half years in beautiful Tokyo, where she completed her Ph.D. at Keio University in 2013.

Her primary area of interest is Computer Architecture, including Reconfigurable Architectures, High Performance Computing and Heterogeneous Computing. Her past research mainly focused on finding new ways to accelerate compute-intensive parts of an algorithm by means of offloading it to an FPGA. The challenge is to take advantage of knowledge about an architecture and adapt the algorithm to the architecture rather than the other way around. Her PhD research focused on developing architectures and methodologies that help to reduce the execution time of Cyclic Redundancy Check algorithms, particularly those implemented using FPGAs, and iSCSI protocol implementation.

In recent years, she has expanded her research to include Digital Signal Processing, Computer Vision, Image Segmentation, Machine Learning to name a few.

Hoda Naghibijouybari is an Assistant Professor in the Computer Science Department at Binghamton University. She received her Ph.D. in computer science from the University of California, Riverside in 2020, working with Professor Nael Abu-Ghazaleh. Her primary research interests are in the area of computer architecture, and security. Her current research focuses on architecture support for security, microarchitectural attacks, GPU security, and heterogeneous systems. Her research has resulted in the discovery of new attacks that have been disclosed to GPU companies and received coverage from technical news outlets. Her paper on GPU security (published in CCS-2018) was selected for Top Picks in Hardware and Embedded Security in 2019.