This project-based course provides an understanding of various advanced power system aspects, and covers the following topics: introduction to smart grids; microgrid control; applications of artificial intelligence in electric power systems; and renewable energy integration.
3 hr./wk.
3 hr./wk.
This course is to cover concepts such as Economics of IC Test, Methods of Test, Testability and Measurements, Fault Models and Simulation, Test Pattern Generation, LogicTest, Memory Test, the IBM Level Sensitive Scan Design (LSSD) methodology, General Scan Design (GDS) methodology, Partial-and Full Scan designs, the IEEE 1149 boundary scan standards. Along with lectures, homework assignments, and exams, students are required to conduct at least one DFT design project to demonstrate understanding of DFT principles and methods. The main outcome is the basic understanding of DFT concepts and methods.
3 hr./wk.
This course is geared towards understanding of IC and SoC design methodologies such as IBM's and TSMC's ASIC sign-off processes, full-and partial-scan insertions, boundary scan insertion, synthesis of BIST structures, robust delay testing, test resource management, the IEEE 1500 standard for SoC solutions, and other advanced topics such as low-pin count testing and mixed-signal testing. Students are required to perform design projects using CAD software systems such as Cadence Design System and SynTest Technologies' DEF solutions. The main outcome is the understanding of state-of-art technologies demonstrated through commercial CAD software systems, as well as learning and practicing industry solutions. Advanced students will be encouraged to explore new ideas in research projects.
3 hr./wk.
Mobile wireless systems ushered in new ways of our daily lives through mobility and ubiquity. The next generation wireless system as known as 5G and the Internet of Things (IoT) will accelerate this trend into the next decades. This course introduces 5G concepts, use cases, architecture, machine-type communications, massive MIMO, mmWave, D2D communications, IoT concepts and applications, and future advanced wireless networking.
3 hr./wk.
3 hr./wk.
3 hr./wk.
3 hr./wk.
3 hr./wk.