The Department of Electrical Engineering

Computer architecture; languages, compilers, and run-time systems; parallelism; programmability, performance, efficiency, reliability, and security

Uniprocessor architecture and organization; architecturally-focused performance measurement and analysis; clocking and timing issues in digital systems

low power hardware/software design, embedded system design, synthesis for nanotechnologies, synthesis of ASIPs, system and high-level synthesis, digital system testing

computer architecture, computer security, trushworthy computing, multicore security, secure cloud computing, cyber security, hardware-enhanced security and resiliency, multimedia processing, advanced microprocessors and SOCs, foundations of trustwort

Computer architecture; operating systems; parallel systems; networking

design automation for digital systems: design tools for embedded systems, hardware-software integration, digital circuit theory, and synthesis and verification of digital systems.

Silicon-based RF, mm-Wave and THz Circuits and Systems; Onchip Active Electromagnetic Field Synthesis and Control for Sensing and Actuation; Self-Healing and Reconfigurable Integrated Circuits and Systems in Silicon; Theoretical Understanding of F

Ultra-low-power integrated circuits including analog instrumentation, data-conversion, and low-voltage digital logic and SRAM; sensing, processing, computing, and communication platforms for biomedical applications.

computer architecture, operating systems, sustainable computing, data center computing, cloud computing, multicore systems, manycore systems, microprocessor design, low-lower computer design, energy efficient computing