DESIGN
STEM SPOTLIGHT
The demand for engineers is growing faster than universities can supply them. The industry needs a workforce that can build the next generation of computing, communications, and automation technologies, but the gap between education and real-world engineering challenges is widening. Senior engineers often find mentoring fresh graduates time-consuming, as many lack the hands-on skills needed to contribute immediately. If universities focused on stronger theoretical foundations combined with practical, problem-solving approaches, companies could onboard engineers more efficiently and accelerate innovation. The intersection of technology and education How Red Pitaya collaborates with universities to train the next generation of engineers
E lectrical engineering is becoming less popular among students, despite its critical role in modern technology. To close the skills gap, education must evolve. Universities need to produce graduates with both deep theoretical knowledge and the ability to apply it in real-world scenarios. This shift is already happening, but not fast enough. Red Pitaya works with universities worldwide to bridge this gap. We measure our impact not just by how many students use our technology but by the number of research projects and startups that emerge from these programmes. Students who gain hands-on experience with our tools often go on to work in cutting-edge companies, applying the problem-solving skills they developed in academic settings to real-world engineering challenges. One way to accelerate this shift is through industry-academia collaboration. We support universities in integrating hands-on learning into engineering curricula, providing tools that allow students to build, test, and iterate in real-world conditions. Our partnerships with universities worldwide, including the Technical University of Munich (TUM) and the University of California, San Diego (UCSD) bring students closer
to the industry through hackathons and hands-on problem-solving competitions. At Southern Methodist University (SMU), we collaborate with professors to develop teaching materials that combine theory with hands-on experimentation. Beyond university students, we also work on upskilling initiatives, such as our FPGA course for scientists, equipping professionals with the skills needed to work with modern programmable hardware. Some of the most valuable companies in technology today started as university research projects. Red Pitaya has been part of this journey for several academic spin-offs that have transitioned into successful businesses. A university lab working on ultra-precise time measurements used Red Pitaya to prototype high-precision timing solutions. Their research evolved into commercial products used in quantum optics and high-speed communications. A team developing high-speed, low-latency data acquisition systems used Red Pitaya as a flexible research tool before turning their technology into an industrial-grade solution. Today, their systems are used in demanding scientific and industrial applications.
By Mateja Lampe Rupnik, CEO, Red Pitaya
12 ELECTRONICSPECIFIER.COM
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