Security-aware systems require sophisticated System-on-Chip (SoC) technology involving high performance embedded microprocessors and reconfigurable hardware such as Field-Programmable Gate Array (FPGA). The proposed CALAS studies and invents new approaches to design and to implement security-aware systems with the consideration of time-area, performance-security, and energy-cost tradeoffs. The proposed research includes security-aware hardware such as microprocessors with security-related custom-instructions, robust datapath designs, multi-core security, and secure embedded systems.
Reconfigurable Trusted Computing, VLSI/FPGA Circuit Designs, Memory Architecture Design, Cryptography, System-on-Chip, High-Performance & Customisable Biomedical Computing, Embedded System Designs, Logic Synthesis.
Hot! Postdoc / PhD / RA Position Opening
Dr. Ray, CALAS team, is continuously looking for bright students globally, prospective students can email Dr. Ray directly with their CVs and three selected papers at “email@example.com”. Our group values global and gender diversities, in conducting cutting edge scholarly research activities.
cccheung at ieee dot org
G6518, 6/F, Green Zone, Department of Electrical Engineering, City University of Hong Kong, Kowloon Tong, Hong Kong