Leading-edge chip desiLeading-edge chip design was never easy, but it’s getting harder all the time. Rapid advances in communication systems are driving data rates higher. With the emergence of ...

As data rates soar into the multi-gigabit range, high-speed digital (HSD) PCB design is no longer just about connecting the dots. Signal integrity (SI) and power integrity (PI) challenges can silently ...

As the industry accelerates toward 800G Ethernet and optical interconnects, engineers face new challenges in managing electromagnetic interference (EMI) while ensuring signal integrity at ...

Consumer electronics, industrial, robotics, medical, and military applications all frequently use an AC/DC power supply, also referred to as AC/DC converter. An accurate design of the power supply ...

Issues in GDDR6 design. In-design analysis for signal integrity and power integrity. Innovative workflow for GDDR6 design and analysis. Graphics processing units (GPUs) and graphics double-data-rate ...

How design reuse and IP management drive engineering excellence. In today’s electronics industry, product complexity ...

Courses are 3 credit hours each. Students must take all 5, for a total of 15 credit hours. ECEN 5224 High Speed Digital Design (Spring) ECEN 5514 Principles of EM for HSDE (Fall) ECEN 5524 Principles ...

While AI chips in the data center are becoming progressively more power-hungry, they’re not alone. The power demands of CPUs, GPUs, FPGAs, SoCs, and everything in between also continue to rise. In ...

From high-voltage safety to advanced thermal management, modern PCB design demands precision, foresight, and adherence to strict standards. Engineers are tackling challenges like creepage, clearance, ...