Traditional semiconductor education often lacks hands-on experience with real devices, professional measurement tools, and industry-relevant workflows. Keysight Semiconductor Teaching Lab Solutions help universities bridge that gap with industry-grade instruments, professional software, ready-to-use lab exercises, and curriculum resources.
Introduce students to practical workflows across IC design, wafer-level measurement, and photonic IC test with Keysight Semiconductor Teaching Lab solutions. Choose a learning path to explore the instruments, software, lab exercises, and teaching resources available for each lab.
Learn how to:
- Modernize semiconductor teaching labs with industry-grade tools
- Connect theory to IC, wafer, and photonic measurement workflows
- Simplify lab deployment with guided teaching resources
Keysight semiconductor teaching lab solutions are designed to help universities connect semiconductor theory with hands-on measurement practice. The portfolio includes three focused learning paths: UU101LAB Basic Design and Measurement, UU102LAB Parametric Test and On-Wafer Measurement, and UU103LAB Photonics IC Measurement. Together, they help students gain practical experience with professional-grade semiconductor instruments, software, guided lab exercises, and workflows used in real semiconductor research, development, and manufacturing environments.
The exact content depends on the selected lab:
Choose the lab based on the learning outcomes you want students to achieve.
Universities can also use the labs as a progressive learning pathway. For example, students can start with basic semiconductor design and measurement, advance to parametric test and on-wafer measurement, and then move into photonic IC measurement for specialized optical and electro-optical applications.
Yes. The Keysight Semiconductor Teaching Lab Solution is positioned for undergraduate and postgraduate semiconductor education. It is designed to help educators deliver experiential learning while equipping students with practical skills used in semiconductor instrumentation, measurement, and software workflows.
For undergraduate courses, the labs can help students move from textbook concepts to hands-on measurements. Suitable topics include basic device characterization, I-V curves, C-V behavior, threshold voltage, leakage, RF design fundamentals, and the relationship between device behavior and circuit performance.
For graduate courses or advanced electives, the labs can support deeper work in wafer-level measurement, parametric testing, low-current measurement, pulsed measurements, self-heating effects, photonic IC measurement, optical coupling, polarization control, and advanced data interpretation. UU102LAB and UU103LAB are especially relevant for courses that need to connect device physics, measurement uncertainty, wafer-level workflows, and industry-style validation methods.
These labs can also support workforce development programs, semiconductor bootcamps, technical hubs, and training centers that need to give students practical exposure to instruments, measurement methods, and workflows used in semiconductor research and manufacturing environments.
Yes. Keysight’s education teaching solutions are designed to support classroom and lab instruction with curriculum-based resources. Each teaching solution comes with editable slides, lab sheets, and a customizable training kit filled with detailed lab procedures. For the semiconductor teaching labs specifically:
This helps educators reduce course development time, standardize student lab experiences, and introduce industry-relevant semiconductor workflows without building every lab exercise from scratch.
Setup requirements depend on the lab configuration, the number of student groups, the instruments selected, and whether the course is focused on design, wafer-level measurement, or photonic IC measurement. In general, universities should plan for lab benches, instrument placement, computer or software access, safe device handling, instructor preparation time, and appropriate storage for devices, probes, cables, optical accessories, and teaching materials.
The setup will vary by lab:
Educators do not need to make these decisions alone. Setting up an engineering education laboratory requires knowledge and planning, and the teaching solution should work for the educator’s needs. Universities can engage Keysight to help determine the right teaching solution, lab configuration, and implementation approach for their curriculum and facilities.
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