A Course to Train Digital Hardware Designers for Industry

A new methodology to teach digital hardware design with a limited time budget is presented. The emphasis is placed on training hardware engineers to answer the needs of the industry. The proposed course is focused on teaching how to design rather than just teaching a hardware description language or a set of tools. This goal is achieved through lectures, tutorials, and small projects. Projects are the core of the proposed methodology and are structured in a pedagogical format. The students must follow the entire design process in all the projects. They receive a written specification that they must interpret. The deliverables are a functionally verified code that meets some synthesis constraints and a report that documents their design. Histograms of the grades are used as a tool to study the student's progress.

[1]  Assim Sagahyroon From AHPL to VHDL: a course in hardware description languages , 2000, IEEE Trans. Educ..

[2]  Valery Sklyarov,et al.  Teaching reconfigurable systems: methods, tools, tutorials, and projects , 2005, IEEE Transactions on Education.

[3]  Daniel D. Frey,et al.  Engineering design thinking, teaching, and learning , 2006 .

[4]  José Nelson Amaral,et al.  Teaching digital design to computing science students in a single academic term , 2005, IEEE Transactions on Education.

[5]  Matthias Kamuf,et al.  Teaching digital ASIC design to students with heterogeneous previous knowledge , 2005, 2005 IEEE International Conference on Microelectronic Systems Education (MSE'05).

[6]  L.J. Leifer,et al.  Engineering design thinking, teaching, and learning , 2005, IEEE Engineering Management Review.

[7]  M. Massoumi,et al.  On the use of hardware description languages in teaching VLSI design courses , 1996, Technology-Based Re-Engineering Engineering Education Proceedings of Frontiers in Education FIE'96 26th Annual Conference.

[8]  Albert J. Rosa,et al.  The Role of the Laboratory in Undergraduate Engineering Education , 2005 .

[9]  Zainalabedin Navabi The impact of hardware description languages on the education of hardware design , 1989, Proceedings., Eighth University/Government/Industry Microelectronics Symposium.

[10]  D.M. Gruenbacher An active learning/teamwork approach to implementing an integrated circuit design cycle in an advanced hardware description language course , 1999, FIE'99 Frontiers in Education. 29th Annual Frontiers in Education Conference. Designing the Future of Science and Engineering Education. Conference Proceedings (IEEE Cat. No.99CH37011.