Accepted Paper at RTS
My single-authored paper entitled “Reduced Latency DRAM for Multi-Core Safety-Critical Real-Time Systems” is accepted in the Real-Time Systems Journal, A spe...
Intelligent Cyber-Physical Systems-on-Chip
The Fanos Research Lab at McMaster University focuses on the design, analysis, and deployment of intelligent Cyber-Physical Systems-on-Chip (iCPSoCs). iCPSoCs research is multidisciplinary by nature. As the figure illustrates, CPS are found in many critical domains such as Unmanned Aerial Vehicles (UAVs), Autonomous Cars, Railways, Internet-of-Things (IoT), and healthcare systems. To build efficient CPS for these domains, we are interested in research areas both at the infrastructure-level (e.g. hardware, software applications, compilers, and operating systems) as well as at the foundational-level (e.g. HW/SW codesign, artificial intelligence, scheduling theory, and security).
Recent News
Accepted Paper at RTSS
My paper with Nivedita Sritharan, Anirudh M. Kaushik and Hiren Patel entitled “Enabling Predictable, Simultaneous and Coherent Data Sharing in Mixed Critical...
I am Serving in the RTAS’s TPC
I was invited to serve in the Technical Program Committee of the 26th IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS).
I am Serving in the RTAS’s TPC
I was invited to serve in the Technical Program Committee of the 26th IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS).
I am Serving in the RTAS’s TPC
I was invited to serve in the Technical Program Committee of the 26th IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS).