The Electrical and Computer Engineering Graduate Program (ECEGP) provides graduate instruction and cutting-edge research in a wide spectrum of areas including communications, control, networking, and ...

More than 93% of our graduates progress to graduate-level work or further study within 15 months. Alumni are now contributing to world-leading companies such as Rolls-Royce, Siemens, and Airbus, ...

Electronics, Semiconductors & Computer Engineering has emerged not merely as a new academic pathway, but as an essential direction that aligns with how modern technology is built, paving a new ...

The Electrical and Computer Engineering Department offers major programs leading to the bachelor of science in electrical-engineering or the bachelor of science in electrical and computer engineering, ...

The artist Nam June Paik once said, "You can't have art without electricity." That's totally true for electrical engineering—it's where creativity and technology meet, making it an art form all its ...

A team led by Professor Qi Zhu received an NSF Design for Environmental Sustainability in Computing award to extend hardware life and reduce waste and emissions When it comes to electronic waste, ...

The graduate programs in electrical engineering from Drexel Engineering engage you in learning and research at the forefront of electrical and computer engineering. Students graduate prepared for ...

With five years of experience as a writer and editor in the higher education and career development space, Ilana has a passion for creating accessible, relevant content that demystifies the higher-ed ...

Electrical engineering is the study and application of electricity, electronics, and electromagnetism. In simple terms, it is about understanding how electricity works in order to use the knowledge ...

Computer engineering is an evolving and fast-paced career that requires creative thinking, adaptability, teamwork, and technology skills. As a trained computer engineering professional, you'll have ...

Slight temperature changes, imperceptible manufacturing imperfections, and heat generated by their own components can completely ruin an entire quantum quantum system-on-chip. Silicon photonics could ...