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Broadening the Impact to Industry/Education

Broadening the Impact to Industry/Education. James Hyder Southwest Center for Microsystems Education Industry Liaison/Innovation Coach Made possible through a grant from the National Science Foundation DUE 0902411. Definition of an Innovation Coach.

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Broadening the Impact to Industry/Education

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  1. Broadening the Impact to Industry/Education James Hyder Southwest Center for Microsystems Education Industry Liaison/Innovation Coach Made possible through a grant from the National Science Foundation DUE 0902411

  2. Definition of an Innovation Coach Innovation Coach is not the owner/driver of the project, but a reflector providing for everyone to be thinking/behaving differently such that our projects scale. We need to look at things differently; thus we experiment with Synergy based tools and principles and share best known methods within the ATE community of practice.

  3. Basic Explanation of Synergy • Create and implement a program of professional growth and team development using Synergy methodologies to develop the skills and competencies necessary to achieve scale within a broader range of projects and initiatives in ATE community; • Design and maintain a knowledge management system and process to support the capturing and dissemination of the knowledge and expertise resulting from our individual and collective efforts in achieving scale; • Develop and leverage an ongoing academy of thought leaders focused on identifying and bringing together the best research and insights on overarching problems and needs in achieving scale and greater impact in the work of the greater ATE community; and • Provide a toolkit of assessment tools and processes appropriate for the various stages of moving from aspiration to understanding to practice and to coaching.

  4. Synergy Tools • The Challenge Cycle • Dede Model • Dearing Attributes • Logic Model

  5. The Challenge Cycle

  6. Dede Model http://www.microsoft.com/education/demos/scale/index.html

  7. Dearing Attributes • “Innovation attributes are most often measured as the perceptions by potential adopters of the characteristics associated with a particular innovation. An innovation is broadly construed as anything perceived to be new by a potential adopter, inclusive of information, ideas, practices or techniques, programs or interventions, technologies, processes, and policies.” -Jim Dearing: Measurement of Innovation Attributes • Effectiveness - better outcome, results good, better than alternatives • Cost - better, faster, cheaper • Compatibility - with existing beliefs and practices, fits goals or mission of adopters • Simplicity - easily understood (not complex), easy to apply/use • Adaptability - can be applied in different situations • Observability - impact/result can be observed • Trialability - can be “tried” without committing fully

  8. Logic Model

  9. SCME’s Logic Model

  10. How it Relates to SCME • The SCME goal is to enhance the capability of emerging technology to produce technicians for research and the production of hi-tech products. We not only produce educational materials but disseminate this knowledge to secondary and post secondary educators. Industry contributes their needs, and benefits from this. In order to scale our educational materials to other institutions we need to formalize a training methodology both to train the educators so that they can better utilize our materials to better educate their students. This system can also be used to assist small start ups – we want to bring value to them as well. • Through the use of the a training methodology called “Job Instruction” (a precursor to lean manufacturing concepts), we can improve the dissemination of our materials and its success in implementation and impact to students and industry.

  11. How it Relates to SCME Job Instruction will be applied to improve our effectiveness in: • Teaching educators how to use our products in the classroom. The educators can be later used to educate other teachers and their students. • Incorporate Job Breakdown Sheets (a key component of Job Instruction) in the activities themselves both as an aide to the teachers and for the students to refer back to. • Apply this principal in training skills for the fab (add value to MTTC and streamline the education of more common processes): • Wafer Handling • Art Wafer Process • Making a mask • Litho – coat, expose develop • Wet Etch – PPE • Resist Strip • Inspection • Since this methodology is generally accepted by industry, this structured and standardized process will not only assist MTTC in being effective, but also can be applied and bring value to the industries served by us and our partners.

  12. Waste “Student Learning Time is Production!”

  13. Job Instruction

  14. Traditional OJT or JI

  15. Single Instructor Presentation/Practice • Instructor demonstrates twice (IS/KP and KP/RW)… participants observe • Observing Eng captures items for specification improvement • Each MT takes turns doing one reiteration of IS, while others observe. After one complete round, MTs take turns doing another iteration of KP. Last round is RW.

  16. Leaning the Learning Further • Obtain additional set of parts • Engineer Observer watched second group of MT’s three reiterations

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