I am a Ph.D. candidate at the University of Michigan, exploring new and efficient designs and architectures for emerging non-Si CMOS technologies such as Carbon nanotube transistors and Silicon Carbide transistors for my research. My advisor is Prof. Ronald Dreslinski Jr.

Reetu Das is an Assistant Professor at University of Michigan. Prior to this, she was a research scientist at Intel Labs, and the researcher-in-residence for the Center for Future Architectures Research. She received her PhD in Computer Science and Engineering from Pennsylvania State University, University Park. Some of her recent projects include in-memory architectures, fine-grain heterogeneous core architectures for mobile systems, and low-power scalable interconnects for kilo-core processors. Her research program has been funded by National Science Foundation, the Center for Future Architectures Research (C-FAR), Semiconductor Research Corporation and Intel Corporation. Reetu is an expert in computer architecture. She has authored over 45 papers, filed 7 patents and served on over 20 technical program committees. She has served as a track chair for Design Automation Conference for two consecutive years. Her research has been recognized by several awards. She has received outstanding research and teaching assistantship awards at Pennsylvania State University, an IEEE Top Picks award, an NSF CAREER award, CRA-W Borg Early Career Award, IEEE/ACM MICRO Hall of Fame award and was recently inducted to ISCA Hall of Fame. Her recent work on in-memory design named Compute Caches received the best Demo award in C-FAR and was selected from 50 projects from leading University research groups. She also serves as the CEO of a precision medicine start-up, Sequal Inc.

I am working with heterogeneous systems, specifically with CPU, GPU and FPGA. I am investigating the behavior of a heterogeneous node, evaluating the interaction and how it can improve the execution time and energy consumption.

I'm a Ph.D. candidate at Department of Computer Science and Engineering, Indian Institute of Technology, Madras, advised by Prof. Chester Rebeiro. My research interests are broadly in the area of secure systems design, with a specific focus on micro-architecture level solutions against various attacks against cryptographic implementations, such as cache side-channel attacks. I'm also interested in exploring the applications of AI to help in building a more secure framework. I was one among the 12 candidates across the world to present my research at Lenovo AI Innovation Challenge Event at SuperComputing Conference 2017, Denver, Colorado. I was also one of the three-member team from IIT Madras that won the First Place in the CSAW Embedded Security Challenge 2016. We designed a secure implementation of an OpenRISC processor to detect and prevent buffer overflow attacks.